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+# Value Pointer Equality in Nix
+
+## Introduction
+
+It is a piece of semi-obscure Nix trivia that while functions are generally not
+comparable, they can be compared in certain situations. This is actually quite an
+important fact, as it is essential for the evaluation of nixpkgs: The attribute sets
+used to represent platforms in nixpkgs, like `stdenv.buildPlatform`, contain functions,
+such as `stdenv.buildPlatform.canExecute`. When writing cross logic, one invariably
+ends up writing expressions that compare these sets, e.g. `stdenv.buildPlatform !=
+stdenv.hostPlatform`. Since attribute set equality is the equality of their attribute
+names and values, we also end up comparing the functions within them.  We can summarize
+the relevant part of this behavior for platform comparisons in the following (true)
+Nix expressions:
+
+* `stdenv.hostPlatform.canExecute != stdenv.hostPlatform.canExecute`
+* `stdenv.hostPlatform == stdenv.hostPlatform`
+
+This fact is commonly referred to as pointer equality of functions (or function pointer
+equality) which is not an entirely accurate name, as we'll see. This account of the
+behavior states that, while functions are incomparable in general, they are comparable
+insofar, as they occupy the same spot in an attribute set.
+
+However, [a maybe lesser known trick][puck-issue] is to write a function such as the
+following to allow comparing functions:
+
+```nix
+let
+  pointerEqual = lhs: rhs: { x = lhs; } == { x = rhs; };
+
+  f = name: "Hello, my name is ${name}";
+  g = name: "Hello, my name is ${name}";
+in
+[
+  (pointerEqual f f) # => true
+  (pointerEqual f g) # => false
+]
+```
+
+Here, clearly, the function is not contained at the same position in one and the same
+attribute set, but at the same position in two entirely different attribute sets. We can
+also see that we are not comparing the functions themselves (e.g. their AST), but
+rather if they are the same individual value (i.e. pointer equal).
+
+To figure out the _actual_ semantics, we'll first have a look at how value (pointer) equality
+works in C++ Nix, the only production ready Nix implementation currently available.
+
+## Nix (Pointer) Equality in C++ Nix
+
+TIP: The summary presented here is up-to-date as of 2023-06-27 and was tested
+with Nix 2.3, 2.11 and 2.15.
+
+### `EvalState::eqValues` and `ExprOpEq::eval`
+
+The function implementing equality in C++ Nix is `EvalState::eqValues` which starts with
+[the following bit of code][eqValues-pointer-eq]:
+
+```cpp
+bool EvalState::eqValues(Value & v1, Value & v2)
+{
+    forceValue(v1);
+    forceValue(v2);
+
+    /* !!! Hack to support some old broken code that relies on pointer
+       equality tests between sets.  (Specifically, builderDefs calls
+       uniqList on a list of sets.)  Will remove this eventually. */
+    if (&v1 == &v2) return true;
+```
+
+So this immediately looks more like pointer equality of arbitrary *values* instead of functions. In fact
+there is [no special code facilitating function equality][eqValues-function-eq]:
+
+```cpp
+        /* Functions are incomparable. */
+        case nFunction:
+            return false;
+```
+
+So one takeaway of this is that pointer equality is neither dependent on functions nor attribute sets.
+In fact, we can also write our `pointerEqual` function as:
+
+```nix
+lhs: rhs: [ lhs ] == [ rhs ]
+```
+
+It's interesting that `EvalState::eqValues` forces the left and right-hand value before trying pointer
+equality. It explains that `let x = throw ""; in x == x` does not evaluate successfully, but it is puzzling why
+`let f = x: x; in f == f` does not return `true`. In fact, why do we need to wrap the values in a list or
+attribute set at all for our `pointerEqual` function to work?
+
+The answer lies in [the code that evaluates `ExprOpEq`][ExprOpEq],
+i.e. an expression involving the `==` operator:
+
+```cpp
+void ExprOpEq::eval(EvalState & state, Env & env, Value & v)
+{
+    Value v1; e1->eval(state, env, v1);
+    Value v2; e2->eval(state, env, v2);
+    v.mkBool(state.eqValues(v1, v2));
+}
+```
+
+As you can see, two _distinct_ `Value` structs are created, so they can never be pointer equal even
+if the `union` inside points to the same bit of memory. We can thus understand what actually happens
+when we check the equality of an attribute set (or list), by looking at the following expression:
+
+```nix
+let
+  x = { name = throw "nameless"; };
+in
+
+x == x # => causes an evaluation error
+```
+
+Because `x` can't be pointer equal, as it'll end up in the distinct structs `v1` and `v2`, it needs to be compared
+by value. For this reason, the `name` attribute will be forced and an evaluation error caused.
+If we rewrite the expression to use…
+
+```nix
+{ inherit x; } == { inherit x; } # => true
+```
+
+…, it'll work: The two attribute sets are compared by value, but their `x` attribute turns out to be pointer
+equal _after_ forcing it. This does not throw, since forcing an attribute set does not force its attributes'
+values (as forcing a list doesn't force its elements).
+
+As we have seen, pointer equality can not only be used to compare function values, but also other
+otherwise incomparable values, such as lists and attribute sets that would cause an evaluation
+error if they were forced recursively. We can even switch out the `throw` for an `abort`. The limitation is
+of course that we need to use a value that behaves differently depending on whether it is forced
+“normally” (think `builtins.seq`) or recursively (think `builtins.deepSeq`), so thunks will generally be
+evaluated before pointer equality can kick into effect.
+
+### Other Comparisons
+
+The `!=` operator uses `EvalState::eqValues` internally as well, so it behaves exactly as `!(a == b)`.
+
+The `>`, `<`, `>=` and `<=` operators all desugar to [CompareValues][]
+eventually which generally looks at the value type before comparing. It does,
+however, rely on `EvalState::eqValues` for list comparisons
+([introduced in Nix 2.5][nix-2.5-changelog]), so it is possible to compare lists
+with e.g. functions in them, as long as they are equal by pointer:
+
+```nix
+let
+  f = x: x + 42;
+in
+
+[
+  ([ f 2 ] > [ f 1 ]) # => true
+  ([ f 2 ] > [ (x: x) 1]) # => error: cannot compare a function with a function
+  ([ f ] > [ f ]) # => false
+]
+```
+
+Finally, since `builtins.elem` relies on `EvalState::eqValues`, you can check for
+a function by pointer equality:
+
+```nix
+let
+  f = x: f x;
+in
+builtins.elem f [ f 2 3 ] # => true
+```
+
+### Pointer Equality Preserving Nix Operations
+
+We have seen that pointer equality is established by comparing the memory
+location of two C++ `Value` structs. But how does this _representation_ relate
+to Nix values _themselves_ (in the sense of a platonic ideal if you will)? In
+Nix, values have no identity (ignoring `unsafeGetAttrPos`) or memory location.
+
+Since Nix is purely functional, values can't be mutated, so they need to be
+copied frequently. With Nix being garbage collected, there is no strong
+expectation when a copy is made, we probably just hope it is done as seldomly as
+possible to save on memory. With pointer equality leaking the memory location of
+the `Value` structs to an extent, it is now suddenly our business to know
+exactly _when_ a copy of a value is made.
+
+Evaluation in C++ Nix mainly proceeds along the following [two
+functions][eval-maybeThunk].
+
+```cpp
+struct Expr
+{
+    /* … */
+    virtual void eval(EvalState & state, Env & env, Value & v);
+    virtual Value * maybeThunk(EvalState & state, Env & env);
+    /* … */
+};
+```
+
+As you can see, `Expr::eval` always takes a reference to a struct _allocated by
+the caller_ to place the evaluation result in. Anything that is processed using
+`Expr::eval` will be a copy of the `Value` struct even if the value before and
+after are the same.
+
+`Expr::maybeThunk`, on the other hand, returns a pointer to a `Value` which may
+already exist or be newly allocated. So, if evaluation passes through `maybeThunk`,
+Nix values _can_ retain their pointer equality. Since Nix is lazy, a lot of
+evaluation needs to be thunked and pass through `maybeThunk`—knowing under what
+circumstances `maybeThunk` will return a pointer to an already existing `Value`
+struct thus means knowing the circumstances under which pointer equality of a
+Nix value will be preserved in C++ Nix.
+
+The [default case][maybeThunk-default] of `Expr::maybeThunk` allocates a new
+`Value` which holds the delayed computation of the `Expr` as a thunk:
+
+```cpp
+
+Value * Expr::maybeThunk(EvalState & state, Env & env)
+{
+    Value * v = state.allocValue();
+    mkThunk(*v, env, this);
+    return v;
+}
+```
+
+Consequently, only special cased expressions could preserve pointer equality.
+These are `ExprInt`, `ExprFloat`, `ExprString`, `ExprPath`—all of which relate
+to creating new values—and [finally, `ExprVar`][maybeThunk-ExprVar]:
+
+```cpp
+Value * ExprVar::maybeThunk(EvalState & state, Env & env)
+{
+    Value * v = state.lookupVar(&env, *this, true);
+    /* The value might not be initialised in the environment yet.
+       In that case, ignore it. */
+    if (v) { state.nrAvoided++; return v; }
+    return Expr::maybeThunk(state, env);
+}
+```
+
+Here we may actually return an already existing `Value` struct. Consequently,
+accessing a value from the scope is the only thing you can do with a value in
+C++ Nix that preserves its pointer equality, as the following example shows:
+For example, using the select operator to get a value from an attribute set
+or even passing a value trough the identity function invalidates its pointer
+equality to itself (or rather, its former self).
+
+```nix
+let
+  pointerEqual = a: b: [ a ] == [ b ];
+  id = x: x;
+
+  f = _: null;
+  x = { inherit f; };
+  y = { inherit f; };
+in
+
+[
+  (pointerEqual f f)      # => true
+
+  (pointerEqual f (id f)) # => false
+
+  (pointerEqual x.f y.f)  # => false
+  (pointerEqual x.f x.f)  # => false
+
+  (pointerEqual x x)      # => true
+  (pointerEqual x y)      # => true
+]
+```
+
+In the last two cases, the example also shows that there is another way to
+preserve pointer equality: Storing a value in an attribute set (or list)
+preserves its pointer equality even if the structure holding it is modified in
+some way (as long as the value we care about is left untouched). The catch is,
+of course, that there is no way to get the value out of the structure while
+preserving pointer equality (which requires using the select operator or a call
+to `builtins.elemAt`).
+
+We initially illustrated the issue of pointer equality using the following
+true expressions:
+
+* `stdenv.hostPlatform.canExecute != stdenv.hostPlatform.canExecute`
+* `stdenv.hostPlatform == stdenv.hostPlatform`
+
+We can now add a third one, illustrating that pointer equality is invalidated
+by select operations:
+
+* `[ stdenv.hostPlatform.canExecute ] != [ stdenv.hostPlatform.canExecute ]`
+
+To summarize, pointer equality is established on the memory location of the
+`Value` struct in C++ Nix. Except for simple values (`int`, `bool`, …),
+the `Value` struct only consists of a pointer to the actual representation
+of the value (attribute set, list, function, …) and is thus cheap to copy.
+In practice, this happens when a value passes through the evaluation of
+almost any Nix expression. Only in the select cases described above
+a value preserves its pointer equality despite being unchanged by an
+expression. We can call this behavior *exterior pointer equality*.
+
+## Summary
+
+When comparing two Nix values, we must force both of them (non-recursively!), but are
+allowed to short-circuit the comparison based on pointer equality, i.e. if they are at
+the same exact value in memory, they are deemed equal immediately. This is completely
+independent of what type of value they are. If they are not pointer equal, they are
+(recursively) compared by value as expected.
+
+However, when evaluating the Nix expression `a == b`, we *must* invoke our implementation's
+value equality function in a way that `a` and `b` themselves can never be deemed pointer equal.
+Any values we encounter while recursing during the equality check must be compared by
+pointer as described above, though.
+
+## Stability of the Feature
+
+Keen readers will have noticed the following comment in the C++ Nix source code,
+indicating that pointer comparison may be removed in the future.
+
+```cpp
+    /* !!! Hack to support some old broken code that relies on pointer
+       equality tests between sets.  (Specifically, builderDefs calls
+       uniqList on a list of sets.)  Will remove this eventually. */
+```
+
+Now, I can't speak for the upstream C++ Nix developers, but sure can speculate.
+As already pointed out, this feature is currently needed for evaluating nixpkgs.
+While its use could realistically be eliminated (only bothersome spot is probably
+the `emulator` function, but that should also be doable), removing the feature
+would seriously compromise C++ Nix's ability to evaluate historical nixpkgs
+revision which is arguably a strength of the system.
+
+Another indication that it is likely here to stay is that it has already
+[outlived builderDefs][], even though
+it was (apparently) reintroduced just for this use case. More research into
+the history of this feature would still be prudent, especially the reason for
+its original introduction (maybe performance?).
+
+[puck-issue]: https://github.com/NixOS/nix/issues/3371
+[eqValues-pointer-eq]: https://github.com/NixOS/nix/blob/3c618c43c6044eda184df235c193877529e951cb/src/libexpr/eval.cc#L2401-L2404
+[eqValues-function-eq]: https://github.com/NixOS/nix/blob/3c618c43c6044eda184df235c193877529e951cb/src/libexpr/eval.cc#L2458-L2460
+[ExprOpEq]: https://github.com/NixOS/nix/blob/3c618c43c6044eda184df235c193877529e951cb/src/libexpr/eval.cc#L1822-L1827
+[outlived builderDefs]: https://github.com/NixOS/nixpkgs/issues/4210
+[CompareValues]: https://github.com/NixOS/nix/blob/3c618c43c6044eda184df235c193877529e951cb/src/libexpr/primops.cc#L569-L610
+[nix-2.5-changelog]: https://nixos.org/manual/nix/stable/release-notes/rl-2.5.html
+[eval-maybeThunk]: https://github.com/NixOS/nix/blob/3c618c43c6044eda184df235c193877529e951cb/src/libexpr/nixexpr.hh#L161-L162
+[maybeThunk-default]: https://github.com/NixOS/nix/blob/8e770dac9f68162cfbb368e53f928df491babff3/src/libexpr/eval.cc#L1076-L1081
+[maybeThunk-ExprVar]: https://github.com/NixOS/nix/blob/8e770dac9f68162cfbb368e53f928df491babff3/src/libexpr/eval.cc#L1084-L1091