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Bug #1448

closed

[patch] Proper handling of recursive arrays

Added by marcandre (Marc-Andre Lafortune) over 15 years ago. Updated over 13 years ago.

Status:

Closed

Assignee:

Target version:

1.9.2

ruby -v:

ruby 1.9.2dev (2009-05-09 trunk 23371) [i386-darwin9.6.0]

Backport:

[ruby-core:23402]

Description

=begin
Dealing with recursive arrays & hashes can be tricky.

The current handling of recursive arrays is much improved over that of Ruby 1.8.6. Array comparison still has some bugs though.

For instance:
x = []; x << x
y = [[x]]
x == y # ==> true
y == x # ==> false, should be true!

Morevoer, recursive arrays that are built the same way are not recognized as equal:
z = []; z << z
x == z # ==> false, should be true!

Needless to say, arrays that have the same elements (e.g. a single element, containing a single element, ...) but built differently way are not recognized as equal:
stone = []; stepping = [stone]; stone << stepping
x == stepping # ==> false, would be nice to be true!

The attached patch fixes all of these problems :-)

How:
The function rb_exec_recursive handles the recursivity by pushing and poping the elements it encounters for a given method (for example eql?). For such comparisons, instead of keeping track of the elements it encounters, I modified it so that it keeps track of both the elements being compared. A recursion is detected only when a matching pair is found.

This takes care of the first problem. For the next two, we only need to observe that if we have a recursion on the pair (x,y) when comparing x and y, then it is because they are not different! Changing the return value for recursive cases from nil (not comparable) / false (different) to Qundef (unknown yet) makes comparison of complex recursive "trees" work beautifully. I've added some cute samples in rubyspecs (core/array/shared/equal.rb)

Implementation details:
Previous recursive_push/pop/check maintained a hash of encountered object ids, setting hash[obj] = true. I modified them so that in "paired" cases, it sets hash[obj] = paired_obj. If a pair (obj, different_paired_obj) is encountered later on, I set hash[obj] to {paired_obj => true, different_paired_obj => true}.

This way, there is basically no runtime cost to this technique, except in the complex recursive cases. Only for these complex cases is there a small additional cost for the hash creation/destruction.

Last problem:
There is one more problem that my patch doesn't cover (lack of mri-fu): hashes for recursive structures are incorrect. As per the official doc, "a.eql? b" should imply "a.hash == b.hash". On the other hand, we have (before or after my patch):
a = [x]
x.eql? a # ==> true
a.eql? x # ==> true
x.hash == a.hash # ==> false, should have same hash

The solution is that when calculating the hash for an array, if a recursion is detected, then the hash should return a fixed value (say 0 or -length) for the original array. Currently, 0 is returned but at the level that the recursion is detected. In Ruby pseudo-code, it would look like:

 static VALUE
 recursive_hash(VALUE ary, VALUE dummy, int recur)
 {
     long i, h;
     VALUE n;

     if (recur) {

```
      raise HashingRecursionDetected
```

      return LONG2FIX(0);
  }
  h = rb_hash_start(RARRAY_LEN(ary));
  for (i=0; i<RARRAY_LEN(ary); i++) {
      n = rb_hash(RARRAY_PTR(ary)[i]);
      h = rb_hash_uint(h, NUM2LONG(n));
  }
  h = rb_hash_end(h);
  return LONG2FIX(h);

}

static VALUE
rb_ary_hash(VALUE ary)
{
return rb_exec_recursive(recursive_hash, ary, 0);

rescue HashingRecursionDetected
```
  return -length
```
}

A similar modification must be made for hash.c.

Thanks

Marc-André Lafortune
=end

Files

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recursion.patch (7.51 KB) recursion.patch		marcandre (Marc-Andre Lafortune), 05/09/2009 11:47 AM
recursion2.patch (7.37 KB) recursion2.patch		marcandre (Marc-Andre Lafortune), 05/10/2009 07:37 AM

Related issues 2 (0 open — 2 closed)

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Updated by nobu (Nobuyoshi Nakada) over 15 years ago

=begin
Hi,

At Sat, 9 May 2009 11:47:53 +0900,
Marc-Andre Lafortune wrote in [ruby-core:23402]:

The attached patch fixes all of these problems :-)

But reverts old problems.

$ ./ruby -e 'x={};x[1]=x;y={};y[1]=y; p x==y'
-e:1:in ==': stack level too deep (SystemStackError) from -e:1:in =='
from -e:1:in ==' from -e:1:in =='
from -e:1:in ==' from -e:1:in =='
from -e:1:in ==' from -e:1:in =='
from -e:1:in ==' ... 5124 levels... from -e:1:in =='
from -e:1:in ==' from -e:1:in =='
from -e:1:in `'

Also, note that arg of rb_exec_recursive() is not restricted to
a real VALUE.

Last problem:
There is one more problem that my patch doesn't cover (lack
of mri-fu): hashes for recursive structures are incorrect. As
per the official doc, "a.eql? b" should imply "a.hash ==
b.hash". On the other hand, we have (before or after my
patch):
a = [x]
x.eql? a # ==> true
a.eql? x # ==> true
x.hash == a.hash # ==> false, should have same hash

I wonder it may be false positive.

$ ruby -e 'x=[];x<<x;a=[x]; p a, x'
[[[...]]]
[[...]]

But no idea right now.

A patch based on yours.

Index: array.c

--- array.c (revision 23373)
+++ array.c (working copy)
@@ -2729,5 +2729,5 @@ recursive_equal(VALUE ary1, VALUE ary2,
long i;

if (recur) return Qfalse;

if (recur) return Qtrue; /* Subtle! */
for (i=0; i<RARRAY_LEN(ary1); i++) {
if (!rb_equal(rb_ary_elt(ary1, i), rb_ary_elt(ary2, i)))
@@ -2762,5 +2762,5 @@ rb_ary_equal(VALUE ary1, VALUE ary2)
}
if (RARRAY_LEN(ary1) != RARRAY_LEN(ary2)) return Qfalse;

return rb_exec_recursive(recursive_equal, ary1, ary2);

return rb_exec_recursive_paired(recursive_equal, ary1, ary2);
}

@@ -2770,5 +2770,5 @@ recursive_eql(VALUE ary1, VALUE ary2, in
long i;

if (recur) return Qfalse;

if (recur) return Qtrue; /* Subtle! */
for (i=0; i<RARRAY_LEN(ary1); i++) {
if (!rb_eql(rb_ary_elt(ary1, i), rb_ary_elt(ary2, i)))
@@ -2792,5 +2792,5 @@ rb_ary_eql(VALUE ary1, VALUE ary2)
if (TYPE(ary2) != T_ARRAY) return Qfalse;
if (RARRAY_LEN(ary1) != RARRAY_LEN(ary2)) return Qfalse;

return rb_exec_recursive(recursive_eql, ary1, ary2);

return rb_exec_recursive_paired(recursive_eql, ary1, ary2);
}

@@ -2859,5 +2859,5 @@ recursive_cmp(VALUE ary1, VALUE ary2, in
long i, len;

if (recur) return Qnil;

if (recur) return Qundef; /* Subtle! */
len = RARRAY_LEN(ary1);
if (len > RARRAY_LEN(ary2)) {
@@ -2901,5 +2901,5 @@ rb_ary_cmp(VALUE ary1, VALUE ary2)
ary2 = to_ary(ary2);
if (ary1 == ary2) return INT2FIX(0);

v = rb_exec_recursive(recursive_cmp, ary1, ary2);

v = rb_exec_recursive_paired(recursive_cmp, ary1, ary2);
if (v != Qundef) return v;
len = RARRAY_LEN(ary1) - RARRAY_LEN(ary2);
Index: hash.c
===================================================================
--- hash.c (revision 23373)
+++ hash.c (working copy)
@@ -1489,5 +1489,5 @@ hash_equal(VALUE hash1, VALUE hash2, int
data.tbl = RHASH(hash2)->ntbl;
data.eql = eql;

return rb_exec_recursive(recursive_eql, hash1, (VALUE)&data);

return rb_exec_recursive_paired(recursive_eql, hash1, (VALUE)&data);
}

Index: thread.c¶

--- thread.c (revision 23373)
+++ thread.c (working copy)
@@ -3311,5 +3311,5 @@ static ID recursive_key;

static VALUE
-recursive_check(VALUE hash, VALUE obj)
+recursive_check(VALUE hash, VALUE obj, VALUE paired_obj)
{
if (NIL_P(hash) || TYPE(hash) != T_HASH) {
@@ -3317,10 +3317,23 @@ recursive_check(VALUE hash, VALUE obj)
}
else {

VALUE list = rb_hash_aref(hash, ID2SYM(rb_frame_this_func()));

VALUE sym = ID2SYM(rb_frame_this_func());
VALUE list = rb_hash_aref(hash, sym);
VALUE pair_list;

if (NIL_P(list) || TYPE(list) != T_HASH)
return Qfalse;

if (NIL_P(rb_hash_lookup(list, obj)))

pair_list = rb_hash_lookup2(list, obj, Qundef);
if (pair_list == Qundef)
return Qfalse;
if (paired_obj) {
```
 if (TYPE(pair_list) != T_HASH) {
```
```
 if (pair_list != paired_obj)
```
```
     return Qfalse;
```
```
 }
```
```
 else {
```

 if (NIL_P(rb_hash_lookup(pair_list, paired_obj)))

```
     return Qfalse;
```
```
 }
```
}
return Qtrue;
}
@@ -3328,7 +3341,7 @@ recursive_check(VALUE hash, VALUE obj)

static VALUE
-recursive_push(VALUE hash, VALUE obj)
+recursive_push(VALUE hash, VALUE obj, VALUE paired_obj)
{

VALUE list, sym;

VALUE list, sym, pair_list;

sym = ID2SYM(rb_frame_this_func());
@@ -3345,20 +3358,31 @@ recursive_push(VALUE hash, VALUE obj)
rb_hash_aset(hash, sym, list);
}

rb_hash_aset(list, obj, Qtrue);

if (!paired_obj) {
rb_hash_aset(list, obj, Qtrue);
}
else if ((pair_list = rb_hash_lookup2(list, obj, Qundef)) == Qundef) {
rb_hash_aset(list, obj, paired_obj);
}
else {
if (TYPE(pair_list) != T_HASH){
```
 VALUE other_paired_obj = pair_list;
```
```
 pair_list = rb_hash_new();
```

 rb_hash_aset(pair_list, other_paired_obj, Qtrue);

```
 rb_hash_aset(list, obj, pair_list);
```
}
rb_hash_aset(pair_list, paired_obj, Qtrue);
}
return hash;
}

static void
-recursive_pop(VALUE hash, VALUE obj)
+recursive_pop(VALUE hash, VALUE obj, VALUE paired_obj)
{

VALUE list, sym;

VALUE list, sym, pair_list, symname, thrname;

sym = ID2SYM(rb_frame_this_func());
if (NIL_P(hash) || TYPE(hash) != T_HASH) {

VALUE symname;
VALUE thrname;
symname = rb_inspect(sym);
thrname = rb_inspect(rb_thread_current());
rb_raise(rb_eTypeError, "invalid inspect_tbl hash for %s in %s",
StringValuePtr(symname), StringValuePtr(thrname));
@@ -3366,19 +3390,34 @@ recursive_pop(VALUE hash, VALUE obj)
list = rb_hash_aref(hash, sym);
if (NIL_P(list) || TYPE(list) != T_HASH) {
VALUE symname = rb_inspect(sym);
VALUE thrname = rb_inspect(rb_thread_current());

symname = rb_inspect(sym);
thrname = rb_inspect(rb_thread_current());
rb_raise(rb_eTypeError, "invalid inspect_tbl list for %s in %s",
StringValuePtr(symname), StringValuePtr(thrname));
}
if (paired_obj) {
pair_list = rb_hash_lookup2(list, obj, Qundef);
if (pair_list == Qundef) {
```
 symname = rb_inspect(sym);
```

 thrname = rb_inspect(rb_thread_current());

 rb_raise(rb_eTypeError, "invalid inspect_tbl pair_list for %s in %s",

      StringValuePtr(symname), StringValuePtr(thrname));

}
if (TYPE(pair_list) == T_HASH) {
```
 rb_hash_delete(pair_list, obj);
```
```
 if (!RHASH_EMPTY_P(pair_list)) {
```

 return; /* keep hash until is empty */

```
 }
```
}
}
rb_hash_delete(list, obj);
}

-VALUE
-rb_exec_recursive(VALUE (*func) (VALUE, VALUE, int), VALUE obj, VALUE arg)
+static VALUE
+exec_recursive(VALUE (*func) (VALUE, VALUE, int), VALUE obj, VALUE arg, VALUE pairid)
{
volatile VALUE hash = rb_thread_local_aref(rb_thread_current(), recursive_key);
VALUE objid = rb_obj_id(obj);

if (recursive_check(hash, objid)) {

if (recursive_check(hash, objid, pairid)) {
return (*func) (obj, arg, Qtrue);
}
@@ -3387,5 +3426,5 @@ rb_exec_recursive(VALUE (*func) (VALUE,
int state;

hash = recursive_push(hash, objid);

hash = recursive_push(hash, objid, pairid);
PUSH_TAG();
if ((state = EXEC_TAG()) == 0) {
@@ -3393,5 +3432,5 @@ rb_exec_recursive(VALUE (*func) (VALUE,
}
POP_TAG();

recursive_pop(hash, objid);

recursive_pop(hash, objid, pairid);
if (state)
JUMP_TAG(state);
@@ -3400,4 +3439,16 @@ rb_exec_recursive(VALUE (*func) (VALUE,
}

+VALUE
+rb_exec_recursive(VALUE (*func) (VALUE, VALUE, int), VALUE obj, VALUE arg)
+{

return exec_recursive(func, obj, arg, 0);
+}

+VALUE
+rb_exec_recursive_paired(VALUE (*func) (VALUE, VALUE, int), VALUE obj, VALUE arg)
+{

return exec_recursive(func, obj, arg, rb_obj_id(arg));
+}

/* tracer */

Index: include/ruby/intern.h¶

--- include/ruby/intern.h (revision 23373)
+++ include/ruby/intern.h (working copy)
@@ -341,4 +341,5 @@ void rb_thread_atfork(void);
void rb_thread_atfork_before_exec(void);
VALUE rb_exec_recursive(VALUE()(VALUE, VALUE, int),VALUE,VALUE);
+VALUE rb_exec_recursive_paired(VALUE()(VALUE, VALUE, int),VALUE,VALUE);
/* file.c */
VALUE rb_file_s_expand_path(int, VALUE *);

--
Nobu Nakada

=end

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Updated by marcandre (Marc-Andre Lafortune) over 15 years ago

File recursion2.patch recursion2.patch added

=begin
Oups, completely forgot to finish the hash part.
The problem was that I was not pairing hash1 with hash2 but with the temporary struct made for the comparison. This is fixed in the included patch. I have updated rubyspecs (core/hash/equal_value_spec) with complex recursive hash tests. Specs now test recursive hashes, even when formed differently but with the same content, and arrays containing hashes containing arrays...

For the false positive: firstly, the example you show is already == in the current version. The equality for arrays is "do they contain the same elements in the same order". For recursive arrays, it's easier to think about the reverse: arrays are not equal if there is a mismatch between one element and the corresponding one. [a] and a don't have such a mismatch.

PS: Thanks for prettying up my code! I had difficulty applying the patch, I hope everything made it through.
=end

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Updated by nobu (Nobuyoshi Nakada) over 15 years ago

=begin
Hi,

At Sun, 10 May 2009 07:37:31 +0900,
Marc-Andre Lafortune wrote in [ruby-core:23412]:

File recursion2.patch added

This patch seems nice to me. I'm afraid matz may not like the
name rb_exec_recursive_paired(). Is it OK?

--
Nobu Nakada

=end

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Updated by marcandre (Marc-Andre Lafortune) over 15 years ago

=begin
Nobuyoshi Nakada wrote:

This patch seems nice to me.
I'm afraid matz may not like the name rb_exec_recursive_paired(). Is it OK?

'rb_exec_recursive_paired' is the name that came to my mind because it checks recursion on a pair of objects. Maybe 'rb_exec_recursive_on_pair' or 'rb_exec_recursive_with_pair' would be even better. As long as a good name is chosen, I'll be happy :-)

Thanks
=end

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