Difference between revisions of "DIP25"
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== DIP25: Sealed references == | == DIP25: Sealed references == | ||
+ | |||
{| class="wikitable" | {| class="wikitable" | ||
!Title: | !Title: | ||
Line 11: | Line 12: | ||
|- | |- | ||
|Status: | |Status: | ||
− | | | + | |Approved for 2.067 |
|- | |- | ||
|Created: | |Created: | ||
Line 17: | Line 18: | ||
|- | |- | ||
|Last Modified: | |Last Modified: | ||
− | | | + | |{{REVISIONYEAR}}-{{REVISIONMONTH}}-{{REVISIONDAY}} |
|- | |- | ||
|Author: | |Author: | ||
Line 23: | Line 24: | ||
|- | |- | ||
|Links: | |Links: | ||
− | | | + | |See also: [http://wiki.dlang.org/DIP71 DIP71: 'noscope' and 'out!param' attributes] |
|} | |} | ||
Line 32: | Line 33: | ||
== In a nutshell == | == In a nutshell == | ||
− | This DIP proposes that any <code>ref</code> parameter that a function received must be also annotated with <code> | + | This DIP proposes that any <code>ref</code> parameter that a function received and also wants to return must be also annotated with <code>return</code>. Annotation are deduced for templates and lambdas, but must be explicit for all other declarations. Example: |
<syntaxhighlight lang=D> | <syntaxhighlight lang=D> | ||
− | ref int fun(ref int a | + | @safe: |
− | ref int | + | ref int fun(ref int a) { return a; } // ERROR |
+ | ref int gun(return ref int a) { return a; } // FINE | ||
+ | ref T hun(T)(ref T a) { return a; } // FINE, templates use deduction | ||
</syntaxhighlight> | </syntaxhighlight> | ||
Line 51: | Line 54: | ||
int x; | int x; | ||
return x; // Error: escaping reference to local variable x | return x; // Error: escaping reference to local variable x | ||
+ | } | ||
+ | |||
+ | struct S { | ||
+ | int x; | ||
+ | } | ||
+ | |||
+ | ref int hun() { | ||
+ | S s; | ||
+ | return s.x; // see https://issues.dlang.org/show_bug.cgi?id=13902 | ||
+ | } | ||
+ | |||
+ | ref int iun() { | ||
+ | int a[42]; | ||
+ | return a[5]; // see https://issues.dlang.org/show_bug.cgi?id=13902 | ||
} | } | ||
</syntaxhighlight> | </syntaxhighlight> | ||
− | However, this enforcement is shallow. The following code compiles and allows reads and writes through defunct stack locations, bypassing scoping and lifetime rules: | + | However, this enforcement is shallow (even after fixing [https://issues.dlang.org/show_bug.cgi?id=13902 issue 13902]). The following code compiles and allows reads and writes through defunct stack locations, bypassing scoping and lifetime rules: |
<syntaxhighlight lang=D> | <syntaxhighlight lang=D> | ||
Line 81: | Line 98: | ||
ref int iun() { | ref int iun() { | ||
S s; | S s; | ||
− | return s. | + | return s.get; // escape the address of part of a local |
} | } | ||
ref int jun() { | ref int jun() { | ||
− | |||
− | |||
− | |||
− | |||
− | |||
return S().get; // worst contender: escape the address of a part of an rvalue | return S().get; // worst contender: escape the address of a part of an rvalue | ||
} | } | ||
Line 98: | Line 110: | ||
This DIP devises rules that allow passing objects by reference ''down'' into functions, and return references ''up'' from functions, whilst disallowing cases such as the above when a reference passed up ends up referring to a deallocated temporary. | This DIP devises rules that allow passing objects by reference ''down'' into functions, and return references ''up'' from functions, whilst disallowing cases such as the above when a reference passed up ends up referring to a deallocated temporary. | ||
− | === | + | === Adding <tt>return</tt> as a parameter attribute === |
− | The main issue is typechecking functions that return a <tt>ref T</tt>. Those that attempt to return locals or parts thereof are already addressed directly, contingent to [https://issues.dlang.org/show_bug.cgi?id=13902 Issue 13902]. The one case remaining is allowing a function returning <code>ref T</code> to return a parameter | + | The main issue is typechecking functions that return a <tt>ref T</tt> and accept some of their parameters by <tt>ref</tt>. Those that attempt to return locals or parts thereof are already addressed directly, contingent to [https://issues.dlang.org/show_bug.cgi?id=13902 Issue 13902]. The one case remaining is allowing a function returning <code>ref T</code> to return a (part of a) parameter passed by <code>ref</code>. |
The key is to distinguish legal from illegal cases. One simple but overly conservative option would be to simply disallow returning a <code>ref</code> parameter or part thereof. That makes <code>identity</code> impossible to implement, and as a consequence accessing elements of a container by reference becomes difficult or impossible to typecheck properly. Also, heap-allocated structures with deterministic destruction (e.g. reference counted) must insert member copies for all accesses. | The key is to distinguish legal from illegal cases. One simple but overly conservative option would be to simply disallow returning a <code>ref</code> parameter or part thereof. That makes <code>identity</code> impossible to implement, and as a consequence accessing elements of a container by reference becomes difficult or impossible to typecheck properly. Also, heap-allocated structures with deterministic destruction (e.g. reference counted) must insert member copies for all accesses. | ||
− | + | This proposal promotes adding <code>return</code> as an attribute that propagates the lifetime of a parameter to the return value of a function. With the proposed semantics, a function is disallowed to return a <code>ref</code> parameter or a part thereof UNLESS the parameter is also annotated with <code>return</code>. Under the proposed semantics <code>identity</code> will be spelled as follows: | |
+ | |||
+ | <syntaxhighlight lang=D> | ||
+ | @safe ref int wrongIdentity(ref int x) { | ||
+ | return x; // ERROR! Cannot return a ref, please use "return ref" | ||
+ | } | ||
+ | @safe ref int identity(return ref int x) { | ||
+ | return x; // fine | ||
+ | } | ||
+ | </syntaxhighlight> | ||
+ | |||
+ | Just by seeing the signature <code>ref int identity(return ref int x)</code> the compiler assumes that the result of identity must have a shorter or equal lifetime than <code>x</code> and typechecks callers accordingly. Example (given the previous definition of <code>identity</code>): | ||
<syntaxhighlight lang=D> | <syntaxhighlight lang=D> | ||
− | @safe ref int | + | @safe ref int fun(return ref int x) { |
− | return x; // | + | int a; |
+ | return a; // ERROR per current language rules | ||
+ | static int b; | ||
+ | return b; // fine per current language rules | ||
+ | return identity(a); // ERROR, this may escape the address of a local | ||
+ | return x; // fine, propagate x's lifetime to output | ||
+ | return identity(x); // fine, propagate x's lifetime through identity to the output | ||
+ | return identity(identity(x)); // fine, propagate x's lifetime twice through identity to the output | ||
} | } | ||
− | @safe ref int | + | @safe ref int gun(ref int input) { |
static int[42] data; | static int[42] data; | ||
− | return data[input]; // | + | return data[input]; // works, can always return static-lived data |
} | } | ||
@safe struct S { | @safe struct S { | ||
private int x; | private int x; | ||
− | ref int get() { return x; } // should work | + | ref int get() return { return x; } // should work, see next section |
} | } | ||
</syntaxhighlight> | </syntaxhighlight> | ||
− | + | ===Interaction with <tt>auto ref</tt>=== | |
+ | |||
+ | Syntactically it is illegal to use <tt>auto ref</tt> and <tt>return ref</tt> on the same parameter. Deduction of the <tt>return</tt> attribute still applies as discussed below. | ||
+ | |||
+ | ===Deduction=== | ||
+ | |||
+ | Deduction of the <tt>return</tt> attribute will be effected under the same conditions as for <tt>pure</tt> (currently for generic and lambda functions). That means the generic <tt>identity</tt> function does not require the <tt>return</tt> attribute: | ||
<syntaxhighlight lang=D> | <syntaxhighlight lang=D> | ||
− | + | auto ref T identity(auto ref T x) { | |
− | return x; // | + | return x; // correct, no need for return |
− | |||
− | |||
− | |||
} | } | ||
</syntaxhighlight> | </syntaxhighlight> | ||
− | + | ===Types of Result vs. Parameters=== | |
+ | |||
+ | Consider: | ||
<syntaxhighlight lang=D> | <syntaxhighlight lang=D> | ||
− | @safe ref int fun(ref | + | @safe ref int fun(return ref float x); |
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
</syntaxhighlight> | </syntaxhighlight> | ||
− | === | + | This function arguably cannot return a value scoped within the lifetime of its argument for the simple reason it's impossible to find an <code>int</code> somewhere in a <code>float</code> (apart from unsafe address manipulation). However, this DIP ignores types; if a parameter is <code>return ref</code>, it is always considered potentially escaped as a result. It is in fact possible that the author of <code>fun</code> wants to constrain its output's lifetime for unrelated reasons. |
+ | |||
+ | Future versions of this DIP may relax this rule. | ||
+ | |||
+ | ===Multiple Parameters=== | ||
+ | |||
+ | If multiple <code>return ref</code> parameters are present, the result's lifetime is conservatively assumed to be enclosed in the lifetime of the shortest-lived of those arguments. | ||
− | Member functions of <code>struct</code>s must qualify <code>this</code> with <code> | + | ===Member Functions=== |
+ | Member functions of <code>struct</code>s must qualify <code>this</code> with <code>return</code> if they want to return a result by <code>ref</code> that won't outlive <code>this</code>. Example: | ||
<syntaxhighlight lang=D> | <syntaxhighlight lang=D> | ||
Line 158: | Line 191: | ||
ref int fun() { return a; } // fine, callers assume infinite lifetime | ref int fun() { return a; } // fine, callers assume infinite lifetime | ||
ref int gun() { return b; } // ERROR! Cannot return a direct member | ref int gun() { return b; } // ERROR! Cannot return a direct member | ||
− | ref int hun() | + | ref int hun() return { return b; } // fine, result is scoped within this |
− | |||
} | } | ||
+ | </syntaxhighlight> | ||
+ | |||
+ | ===@safe=== | ||
+ | For the initial release, the requirement of returns for <code>ref</code> parameter data to be marked with <code>return</code> will only apply to <code>@safe</code> functions. The reasons for this are to avoid breaking existing code, and because it's not yet clear whether this feature will interfere with valid constructs in a system language. | ||
+ | |||
+ | <syntaxhighlight lang=D> | ||
+ | @safe ref int fun(ref int x) { return x;} // Error | ||
+ | @safe ref int gun(return ref int x) { return x;} // OK | ||
+ | @system ref int hun(ref int x) { return x;} // OK for now, @system code. | ||
+ | @system ref int jun(return ref int x) { return x;} // preferred, gives more hints to compiler for lifetime of return value | ||
</syntaxhighlight> | </syntaxhighlight> | ||
== Copyright == | == Copyright == | ||
This document has been placed in the Public Domain. | This document has been placed in the Public Domain. | ||
+ | |||
+ | [[Category: DIP]] |
Latest revision as of 19:51, 1 September 2015
Contents
DIP25: Sealed references
Title: | Sealed references |
---|---|
DIP: | 25 |
Version: | 1 |
Status: | Approved for 2.067 |
Created: | 2013-02-05 |
Last Modified: | 2015-09-1 |
Author: | Walter Bright and Andrei Alexandrescu |
Links: | See also: DIP71: 'noscope' and 'out!param' attributes |
Abstract
D offers a number of features aimed at systems-level coding, such as unrestricted pointers, casting between integers and pointers, and the @system
attribute. These means, combined with the other features of D, make it a complete and expressive language for systems-level tasks. On the other hand, economy of means should be exercised in defining such powerful but dangerous features. Most other features should offer good safety guarantees with little or no loss in efficiency or expressiveness. This proposal makes ref
provide such a guarantee: with the proposed rules, it is impossible in safe code to have ref
refer to a destroyed object. The restrictions introduced are not entirely backward compatible, but disallow code that is stylistically questionable and that can be easily replaced either with equivalent and clearer code.
In a nutshell
This DIP proposes that any ref
parameter that a function received and also wants to return must be also annotated with return
. Annotation are deduced for templates and lambdas, but must be explicit for all other declarations. Example:
@safe:
ref int fun(ref int a) { return a; } // ERROR
ref int gun(return ref int a) { return a; } // FINE
ref T hun(T)(ref T a) { return a; } // FINE, templates use deduction
Description
Currently, D has some provisions for avoiding dangling references:
ref int fun(int x) {
return x; // Error: escaping reference to local variable x
}
ref int gun() {
int x;
return x; // Error: escaping reference to local variable x
}
struct S {
int x;
}
ref int hun() {
S s;
return s.x; // see https://issues.dlang.org/show_bug.cgi?id=13902
}
ref int iun() {
int a[42];
return a[5]; // see https://issues.dlang.org/show_bug.cgi?id=13902
}
However, this enforcement is shallow (even after fixing issue 13902). The following code compiles and allows reads and writes through defunct stack locations, bypassing scoping and lifetime rules:
ref int identity(ref int x) {
return x; // pass-through function that does nothing
}
ref int fun(int x) {
return identity(x); // escape the address of a parameter
}
ref int gun() {
int x;
return identity(x); // escape the address of a local
}
struct S {
int x;
ref int get() { return x; }
}
ref int hun(S x) {
return x.get; // escape the address of a part of a parameter
}
ref int iun() {
S s;
return s.get; // escape the address of part of a local
}
ref int jun() {
return S().get; // worst contender: escape the address of a part of an rvalue
}
The escape patterns are obvious in these simple examples that make all code available and use no recursion, and may be found automatically. The problem is that generally the compiler cannot see the body of identity
or S.get()
. We need to devise a method that derives enough information for safety analysis only given the function signatures, not their bodies.
This DIP devises rules that allow passing objects by reference down into functions, and return references up from functions, whilst disallowing cases such as the above when a reference passed up ends up referring to a deallocated temporary.
Adding return as a parameter attribute
The main issue is typechecking functions that return a ref T and accept some of their parameters by ref. Those that attempt to return locals or parts thereof are already addressed directly, contingent to Issue 13902. The one case remaining is allowing a function returning ref T
to return a (part of a) parameter passed by ref
.
The key is to distinguish legal from illegal cases. One simple but overly conservative option would be to simply disallow returning a ref
parameter or part thereof. That makes identity
impossible to implement, and as a consequence accessing elements of a container by reference becomes difficult or impossible to typecheck properly. Also, heap-allocated structures with deterministic destruction (e.g. reference counted) must insert member copies for all accesses.
This proposal promotes adding return
as an attribute that propagates the lifetime of a parameter to the return value of a function. With the proposed semantics, a function is disallowed to return a ref
parameter or a part thereof UNLESS the parameter is also annotated with return
. Under the proposed semantics identity
will be spelled as follows:
@safe ref int wrongIdentity(ref int x) {
return x; // ERROR! Cannot return a ref, please use "return ref"
}
@safe ref int identity(return ref int x) {
return x; // fine
}
Just by seeing the signature ref int identity(return ref int x)
the compiler assumes that the result of identity must have a shorter or equal lifetime than x
and typechecks callers accordingly. Example (given the previous definition of identity
):
@safe ref int fun(return ref int x) {
int a;
return a; // ERROR per current language rules
static int b;
return b; // fine per current language rules
return identity(a); // ERROR, this may escape the address of a local
return x; // fine, propagate x's lifetime to output
return identity(x); // fine, propagate x's lifetime through identity to the output
return identity(identity(x)); // fine, propagate x's lifetime twice through identity to the output
}
@safe ref int gun(ref int input) {
static int[42] data;
return data[input]; // works, can always return static-lived data
}
@safe struct S {
private int x;
ref int get() return { return x; } // should work, see next section
}
Interaction with auto ref
Syntactically it is illegal to use auto ref and return ref on the same parameter. Deduction of the return attribute still applies as discussed below.
Deduction
Deduction of the return attribute will be effected under the same conditions as for pure (currently for generic and lambda functions). That means the generic identity function does not require the return attribute:
auto ref T identity(auto ref T x) {
return x; // correct, no need for return
}
Types of Result vs. Parameters
Consider:
@safe ref int fun(return ref float x);
This function arguably cannot return a value scoped within the lifetime of its argument for the simple reason it's impossible to find an int
somewhere in a float
(apart from unsafe address manipulation). However, this DIP ignores types; if a parameter is return ref
, it is always considered potentially escaped as a result. It is in fact possible that the author of fun
wants to constrain its output's lifetime for unrelated reasons.
Future versions of this DIP may relax this rule.
Multiple Parameters
If multiple return ref
parameters are present, the result's lifetime is conservatively assumed to be enclosed in the lifetime of the shortest-lived of those arguments.
Member Functions
Member functions of struct
s must qualify this
with return
if they want to return a result by ref
that won't outlive this
. Example:
@safe struct S {
static int a;
int b;
ref int fun() { return a; } // fine, callers assume infinite lifetime
ref int gun() { return b; } // ERROR! Cannot return a direct member
ref int hun() return { return b; } // fine, result is scoped within this
}
@safe
For the initial release, the requirement of returns for ref
parameter data to be marked with return
will only apply to @safe
functions. The reasons for this are to avoid breaking existing code, and because it's not yet clear whether this feature will interfere with valid constructs in a system language.
@safe ref int fun(ref int x) { return x;} // Error
@safe ref int gun(return ref int x) { return x;} // OK
@system ref int hun(ref int x) { return x;} // OK for now, @system code.
@system ref int jun(return ref int x) { return x;} // preferred, gives more hints to compiler for lifetime of return value
Copyright
This document has been placed in the Public Domain.