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= Notes about Results =

See [wiki:WG1BallotExplanation WG1BallotExplanation].

== WG1 - Core ==

=== #460 Semantics of `eqv?` ===

The semantics of `eqv?` are highly contended, and as a result we are
bringing this up for a third and final vote.

The earlier votes on #125 (`eqv?` may not return true for procedures)
and #229 (`eqv?` is unspecified for NaNs) were voted on and treated as
orthogonal.  There have been no objections to these, and so the
results still stand.  We're only focusing on the core `eqv?` semantics
for inexact numbers.

This is fundamentally a tale of three equivalences: mathematical,
operational, and representational.

{{{
Ultra-brief history:

R2RS was purely mathematical, defining `eqv?` on numbers in terms of
`=`.  R3RS defined a simple operational equivalence by distinguishing
exact and inexact.  This was not a complete operational equivalence
because R3RS already had multiple precisions and implicit NaNs and
signed zeros.  R[45]RS dropped the discussion of operational
equivalence but kept the exactness separate.  R6RS re-introduced the
notion of operational equivalence, this time with a complete definition.
The R7RS 7th draft introduced an incomplete notion of representational
equivalence - two numbers are `eqv?` iff they have the same IEEE-style
representation.
}}}

For this final vote there are three proposals under consideration,
corresponding to the complete forms of each equivalence.  Variations
may be proposed and added if a suitable rationale is given.

The `r5rs` proposal follows R5RS exactly, in the spirit of
mathematical equivalence (assuming exacts and inexacts are different
types to begin with).  The advantage of this is it's very simple and
it appeals to idealists - people who want to pretend that they are
computing real mathematical values without such thing as NaNs or
negative zeros.  The disadvantage of this is, as with most things that
appeal to idealists, it does not match reality.  Our computers use
crude hacks for efficiency, and even if someone manages to build an
ideal Scheme, it will likely be impractical and most implementations
will continue to use those hacks.  Moreover, mathematical equivalence
is already available via the `=` procedure.  This is not a practical
equivalence relation for a standard.  The text for the true case of
`eqv?` for inexact numbers under `r5rs` is:

{{{
  (3) obj1 and obj2 are both numbers, have the same exactness, and are
  numerically equal (see `=`).
}}}

The `r6rs` proposal follows R6RS exactly in the spirit of operational
equivalence (with a small correction to avoid making everything
unspecified via NaN transitivity).  The advantages of this is that
it's exactly what you want to distinguish if two values will always
behave the same, for example for compiler optimizations or
memoization.  The disadvantage is that the definition is complicated
and difficult to nail down - it doesn't account for non-standard
extensions an implementation may provide which could distinguish
certain new values.  The `r6rs` text is:

{{{
  (3.1) obj1 and obj2 are both exact numbers and are numerically
  equal (see `=`)

  (3.2) obj1 and obj2 are both inexact numbers, are numerically equal
  (see `=`), and yield the same results (in the sense of `eqv?` and
  excluding `+nan.0`) when passed as arguments to any other procedure
  that can be defined as a finite composition of Scheme’s standard
  arithmetic procedures.
}}}

Finally, the `representational` proposal is based on the previous
`same-bits` in the spirit of representational equivalence.  Two
numbers are `eqv?` if they are represented the same way.  This is
potentially finer grained than operational equivalence - it may in
fact make useless distinctions, but it is generally safer to
over-distinguish than to under-distinguish.  The `representational`
text is:

{{{
  (3.1) obj1 and obj2 are both exact numbers and are numerically
  equal (see `=`)

  (3.2) obj1 and obj2 are both numbers of the same composite numeric
  type, whose corresponding fields are all `eqv?`

    * numbers in the style of the IEEE 754-2008 floating point
      standard are considered composites of their radix, precision,
      maximum exponent, sign, exponent, and significand

    * non-real complex numbers are composites of their real and
      imaginary parts
}}}

  * '''References:'''
    * [https://groups.google.com/d/msg/scheme-reports-wg1/BGvDFtD6A1M/5pHmfXHtvEIJ eqv? issues summarized]
    * [https://groups.google.com/d/msg/scheme-reports-wg1/2Nv6oIND8HI/Z2HXPQMNFooJ the history of eqv? on numbers]
    * [http://lists.scheme-reports.org/pipermail/scheme-reports/2012-November/002914.html Weaver's objection]
    * [http://www.math.purdue.edu/~lucier/r7rs-eqv-discuss Lucier on IEEE 754]
  * '''Options:''' r5rs, r6rs, representational
  * '''Default:''' r5rs
  * '''Preferences:''' r6rs, representational, r5rs

time

2012-12-04 12:16:53

version

20