We voted that eqv? return #t if both arguments are any value which writes as +nan.0. The description of this item was ill-formed and confusing, as objected to in:
http://lists.scheme-reports.org/pipermail/scheme-reports/2011-September/001507.html
We therefore are re-opening the item, with amended descriptions.
The same proposal is what R6RS specifies - that we add a clause to the definition of eqv? saying that if both arguments are NaN values with the same bit pattern, eqv? must return #t. Thus eq? implies eqv?. However, if two values both print as +nan.0 they may or may not be eqv?. This also requires additional checks for floating point comparisons.
The different proposal is that we add a single clause requiring (eqv? +nan.0 x) to return #f for any x. This is the behavior that results for any R5RS implementation that adds support for +nan.0 as an IEEE float without any special handling for it in eqv?.
The unspecified proposal is to make the results explicitly unspecified.
The following 8 implementations return #t: Chez, Gambit, Guile, Ikarus/Vicare, Kawa, Larceny, Racket, STklos.
The following 6 implementations return #f: Bigloo, Chibi, Chicken, Gauche, MIT Scheme, Scheme48.
SigScheme and Scheme 9 don't have +nan.0. SISC currently has a bug where (= nan.0 x) is true for any x.
Excluding -nan.0 was an oversight, and it's gratuitously incompatible with R6RS as well as current practice. Racket, Gauche, Chicken, Guile, Chez, Ikarus, Larceny, Ypsilon, STklos all support +nan.0 and -nan.0 as equivalent forms. MIT, Bigloo, Scheme48/scsh, SISC, SCM, Scheme 9 don't support either form. Only Gambit and Chibi support +nan.0 but not -nan.0.
STklos prints both +nan.0 and -nan.0 as -nan.0.
Vote yes to allow -nan.0, no to disallow it.
Bradley Lucier says:
I don't see the centered-* operators as somehow a "completion" of the other division operators. In the small language I'd recommend only the truncate-* and floor-* operators for two reasons: they are the only division operators that have an established history of use in computer programming and mathematics, and they form a minimal extension of R5RS. (I'm not saying that the other division operators have never been used in mathematics or programming (see CL), but small Scheme is not supposed to be a kitchen-sink language.)
Vote shrink to prune to truncate-* (R5RS) and floor-* (R5RS modulo), moving the extra operators to the large language, or keep to keep all 18 division operators in the small language.
Currently vectors are the only type represented by a readable datum that are neither self-quoting nor meaningful Scheme expressions (i.e. symbols and lists). The proposal is to make them self-quoting as well.
Currently Racket, Gauche, MIT, Guile, Kawa, Chibi, SCM, STklos, Scheme 9, Scheme 7, UMB, VX, Oaklisp treat vectors as self-quoting.
Gambit, Chicken, Bigloo, Scheme48/scsh, SISC, Ikarus, Larceny, Ypsilon, IronScheme, Mosh, KSi, SigScheme, Elk treat unquoted vectors as errors.
Vote yes to make them self-quoting, no to make it an explicit error, or unspecified to leave unspecified as in R5RS.
The specifications of map, for-each, and other procedures that accept a procedure as an argument and call it, should specify that the argument procedures will always be called in the dynamic environment of the call to map, for-each, etc.
This is an R6RS fix.
Vote yes to add the clarification and no to leave it out.
Identifiers beginning with a character of type Nd, Mc, or Me should be forbidden. This is an R6RS issue.
Nd is a numeric character, which in the case of ASCII 0-9 is already forbidden, but currently unspecified for non-ASCII digits.
Mc and Me are enclosing marks and spacing combining marks respectively, which are logically attached to the preceding character.
Vote yes to forbid (which would still allow this as an implementation-dependent extension for either numbers or symbols).
This is equivalent to eq? on symbols, and provides R6RS base compatibility as well as completing the set of type-specific comparisons. See also #316.
Vote yes to add this procedure.
Real-valued?, rational-valued?, and integer-valued? test whether a given number object can be coerced to the specified type without loss of numerical accuracy. They are equivalent to the versions of real?, rational?, and integer? that exist in R5RS.
Specifically, the behavior of these predicates differs from the behavior of real?, rational?, and integer? on complex number objects whose imaginary part is inexact zero.
These procedures provide R6RS base compatibility as well.
Vote yes to add these three procedures.
Assert raises an error if its argument is #f. This provides R6RS base compatibility.
Other definitions of assert have been defined which provide friendlier error reporting.
Vote yes to add this syntax.
Infinite? returns #t if its value is a real number, or if its value is a complex number and either the real or the imaginary part would return #t to infinite?. This provides R6RS base compatibility, with extensions for complex numbers analogous to that provided by finite? and nan?.
This was in the draft at one point, but was never actually voted on, so the editors removed it.
Vote yes to add this procedure.
Bradley Lucier writes (lightly edited):
A square primitive is useful in calculating with bignums because squaring a bignum is generally cheaper than multiplying two different bignums of the same size. For example, Gambit's runtime checks trivially whether the two arguments in (* a b) are eq? before calling the appropriate algorithm. Generally, it may be better to be able to express this primitive directly.
[He also points out that given square in the small language, we can have flsquare in the large language, though having the latter doesn't actually require having the former.]
In addition, there are 20,340 Google hits for ["(define (square x)" ss|scm].
Vote yes to add this procedure.
For with-input-from-file, with-output-to-file, call-with-input-file, call-with-output-file, R5RS just says that the file should exist. However, open-input-file requires an error to be signalled if the file cannot be opened, whether because it does not exist for some other reason like the lack of permissions. This inconsistency doesn't seem useful.
The proposal is to change these wrapper procedures to also require an error to be signalled if the file cannot be opened. All major Schemes already implement this.
Vote yes to require signalling an error if the files cannot be opened.
mdmkolbe writes on Slashdot:
Given that on a system with Unicode, you almost never want to do a non-normalizing case-insensitive match and that it is hard for a user to efficiently implement their own normalizing case-insensitive match, it seems an odd corner of the rectangle to omit.
(end quotation)
Alternatively we could specify that -ci procedures always normalize, or that -ni procedures are always case-insensitive, since the details of the normalization are not exposed anyway.
Currently nothing is said about the <test> of if, cond, and, or, etc. returning zero values or multiple values. The proposal is to make this an explicit error. Remember that this does not mean an error is signalled.
Vote yes to make an explicit error.
Currently nothing is said about what happens if the <expression> of a set! returns zero values or multiple values. The proposal is to make this an explicit error. Remember that this does not mean an error is signalled.
Vote yes to make an explicit error.
Right now nothing is said. The proposal is to make this an explicit error. Remember that this does not mean an error is signalled.
Vote yes to make an explicit error.
The case-folding flags #!fold-case and #!no-fold-case are the only reader flags in the draft, however their need is reduced (though not eliminated) by the library declaration include-ci. Do we still need flipflop flags to turn case-folding on and off in part of a file?
If we remove these we maintain backwards compatibility with R5RS library code, however we lose the ability to support R5RS programs or toggle case-folding in the REPL or data files, etc.
[Based on feedback from Marc Feeley.]
delay and force were simple balanced concepts, but the introduction of lazy somewhat confuses the issue - when is delay appropriate and when is lazy? A simple solution would be to rename lazy to delay-force, indicating it is simply the composition of delay and force, and letting people see directly in code the balance of delays and forces.
[Based on feedback from Marc Feeley.]
Currently symbols can either be delimited with pipes |...| with optional hex escapes inside, or include hex escapes directly without the pipes. This wastes two characters that were reserved in R5RS, the pipe and the backslash, when either one by itself would be sufficient to represent all symbols. This is especially unfortunate because both characters are used as extensions in various Schemes - the pipe being another symbol character in SCSH (to represent shell-style pipes and C-style operators) and the backslash used in Gambit's infix syntax. We should reconsider if we really need to take up both of these characters.
They have been required for a long time, but Alex Shinn says:
I definitely think everything but the one and two depth combinations should be removed from (scheme base). Their use is generally a code smell. People should use destructuring, records, or SRFI-1 first..tenth accessors.
Ray Dillinger (Bear) adds:
The historic use of these entities was as accessors for structured aggregates implemented with cons cells. In a language that directly supports records, they have a reduced mission.
Vote base to keep all in the base library or library to move the 3- and 4-letter accessors to a separate library.
[Based on feedback from Marc Feeley]
The eager procedure is named particularly unfortunately because it sounds as though it is in some way paired with lazy, and there is anecdotal evidence it was voted in on this misunderstanding. In fact, it is completely unrelated to lazy, being just a utility procedure that has never been seen used in practice. Perhaps a better name for it would be promise or make-promise, since it just creates an (already computed) promise value.
Vote eager, promise or make-promise to specify the name, or remove to remove this procedure altogether.
Allow the argument of list-ref to be circular. It is still an error to use an index >= the length of the list. None of my test implementations has a problem with this.
Vote circular to explicitly allow circular lists, error to add an "is an error" disclaimer, or unspecified to leave as is.
Allow circular lists as the list arguments to map and for-each. If all arguments are circular, these procedures will not terminate unless the mapping procedure forces a non-local exit. The result of map is not circular. Implementations that stop when the shortest list runs out and don't make gratuitous tests shouldn't have a problem with this: R5RS allows, R6RS forbids, and R7RS requires this behavior.
Vote circular to explicitly allow circular lists, error to add an "is an error" disclaimer, or unspecified to leave as is. Unspecified leaves open the theoretical extension of returning a new circular list with the corresponding mapped results.
When we approved CompleteSequenceCowan in ticket #64, we adopted SRFI 43 syntax and semantics for vector-copy, meaning that it takes optional start, end, fill arguments. This is inconsistent with various other copier procedures in R7RS as inherited from R5RS, as well as what is provided in SRFI 43 and its relatives SRFI 1 (for lists) and SRFI 13 (for strings). There are four plausible courses of action:
The current draft guarantees the guard clauses (not the body) of a guard form to be in tail call position, but the need for this is unclear (who needs an unbounded number of active exceptions), and there may be worthwhile guard implementations where this is not the case.
The current draft allows @ to begin an identifier, which would require some comment about unquoting, i.e. to distinguish whether ,@foo is (unquote @foo) or (unquote-splicing foo).
The options are invalid (disallow @ at the beginning of an identifier, as in R5RS), unquote to indicate that ,@foo is (unquote @foo), and unquote-splicing to indicate that ,@foo is (unquote-splicing foo).
If unquote-splicing is chosen, a note will be added saying that if you want to unquote an identifier beginning with @ you need to either insert whitespace or escape the identifier, e.g. either , @foo or ,|@foo|.
Note that if we don't choose invalid then SXML retroactively becomes valid syntax.
We should probably make (string-set! str n #\null) unspecified. Note that R7RS implementations can already restrict the set of characters that are allowed in strings.
Vote yes to add a clause to this effect, and no to leave it as legal.
This is equivalent to eq? on booleans, and provides R6RS base compatibility as well as completing the set of type-specific comparisons. See also #285.
Vote yes to add these three procedures.
The draft states for with-input-from-file and with-output-to-file:
If an escape procedure is used to escape from the continuation of these procedures, their behavior is implementation-dependent.
but now that we have dynamic-wind there's no particular reason to keep this restriction, nor is it difficult to implement.
Vote parameterize to specify the current-in/output-port are bound dynamically as with parameterize in these cases, or unspecified to leave unspecified.
Currently we require that if the characters GREEK LETTER CAPITAL SIGMA, SMALL SIGMA, and SMALL FINAL SIGMA are supported by an implementation, that a CAPITAL SIGMA in a string passed to string-downcase be changed to SMALL FINAL SIGMA just before a word break, and SMALL SIGMA otherwise. Word breaks are defined by UAX #29, and are no simple matter. The proposal is to make this behavior optional, allowing CAPITAL SIGMA to be downcased to SMALL SIGMA in every case.
Vote yes to make optional.
(In this ticket, "complex" is used for readability; it is synonymous with "non-real".)
This feature is true in implementations that support complex numbers such that both the real and the imaginary parts are exact; that is, if (eqv? 3+4i 3.0+4.0i) evaluates to #f. This feature is false if complex numbers are not supported or if only inexact complex numbers are supported. Most of the applications of complex numbers use inexact numbers, but some applications may require exactness: this feature allows those applications to fail fast on implementations that cannot support them.
Existing implementations:
Vote yes to add this feature.
This procedure returns a list of symbols corresponding to the feature identifiers which the implementation treats as true. More details at EnvironmentEnquiriesCowan.
Vote yes to add this procedure.
EnvironmentEnquiriesCowan is a library providing at run time what Common Lisp calls environment enquiries such as the name of the OS. Implementations can currently expose these as cond-expand feature identifiers, but there is no way to determine things like the name of the implementation at run time so that it can be written to a log file, for example.
Vote yes to add EnvironmentEnquiriesCowan (other than get-features), and no to leave out.
Reduce the standardized cond-expand feature identifiers to r7rs, exact-closed, ratios, ieee-float, and full-unicode, plus the name and name-plus-version of the implementation. The others can't affect the behavior of strictly conforming programs, and it's not clear if they apply to compile time or run time on implementations that distinguish the two. See also ticket #320 for exact-complex.
Argument against: Keeping them in the standard encourages all implementations that use them to spell them the same way: darwin, not macosx.
Vote full to keep the full list as in draft-6, implementation to keep only the implementation features, or numerics to keep the list described above.
Allow \| to represent a vertical bar in an identifier enclosed in vertical bars (the current BNF disallows | anywhere in the escape).
Note this item is nullified if |...| escapes are removed in item #304.
Vote pipe to allow just the vertical bar escaped, string to allow the same set of escapes as in string literals (plus pipe), and none to leave as is.
(bytevector-copy! from to) is equivalent to (bytevector-copy-partial! from 0 (bytevector-length) to 0).
The proposal is to remove the existing bytevector-copy! from the small language, and rename bytevector-copy-partial! to bytevector-copy!, with the order of arguments `to at from start end, the same order used in SRFI 43's vector-copy!`. Note that SRFI 43 will be part of the large language.
Vote yes to eliminate and rename as proposed, and no to leave as-is.
From Per Bothner:
Copying a slice from one vector/string into another is such a fundamental operation that it should be added, IMO, considering that it's tedious to write if "by hand", and that a standard library routine is likely to be much more efficient (especially for strings, since that avoids the need for boxing and unboxing the characters). [JC: Many implementations represent characters as immediates, however.]
One could also argue that "character" operations don't really make semantic sense in a Unicode world, and so string-set! has limited usefulness. Thus string-copy [with start/end arguments] and string-copy! are the actual useful "primitive" operations.
JC: These would be the five-argument versions based on the current bytevector-copy-partial!, possibly with renumbering of arguments depending on the outcome of #325.
Vote yes to add these destructive operations as proposed.
Currently there is no guarantee of this. Obviously the string->number only applies to the case where the radix is 10 or specified.
Specifying same is problematic in the presence of batch compilation
tower.
R6RS changed these names to the more sensible exact and inexact. We need to decide if we want to follow suit, or provide both names, or write a disclaimer.
Vote r6rs for the short names, r5rs for the long names, or both for both.
The (scheme ieee) library exports the standard identifiers of IEEE 1178-1990. By my current reckoning, those identifiers are as follows:
`- * / + < <= = > >= abs acos and angle append apply asin assoc assq assv atan begin boolean? call-with-current-continuation car case cdr ceiling char->integer char-alphabetic? char-ci<? char-ci<=? char-ci=? char-ci>? char-ci>=? char-downcase char-lower-case? char-numeric? char-upcase char-upper-case? char-whitespace? char? char<? char<=? char=? char>? char>=? close-input-port close-output-port complex? cond cons cos current-input-port current-output-port define denominator display do eof-object? eq? equal? eqv? even? exact->inexact exact? exp expt floor for-each gcd if imag-part inexact->exact inexact? input-port? integer->char integer? lambda lcm length let let* letrec list list-ref list? log magnitude make-polar make-rectangular make-string make-vector map max member memq memv min modulo negative? newline not null? number->string number? numerator odd? open-input-file open-output-file or output-port? pair? peek-char positive? procedure? quasiquote quote quotient rational? rationalize read read-char real-part real? remainder reverse round set-car! set-cdr! set! sin sqrt string string->number string->symbol string-append string-ci<? string-ci<=? string-ci=? string-ci>? string-ci>=? string-length string-ref string-set! string? string<? string<=? string=? string>? string>=? substring symbol->string symbol? tan truncate vector vector-length vector-ref vector-set! vector? write write-char zero?`
As with any library other than (scheme base), implementations SHOULD (rather than MUST) provide this.
Vote yes to add this library.
The (scheme r5rs) library exports the standard identifiers of R5RS Scheme other than transcript-{on,off}. By my current reckoning, those identifiers are as follows:
`- * / + < <= = > >= abs acos and angle append apply asin assoc assq assv atan begin boolean? call-with-current-continuation call-with-values car case cdr ceiling char->integer char-alphabetic? char-ci<? char-ci<=? char-ci=? char-ci>? char-ci>=? char-downcase char-lower-case? char-numeric? char-ready? char-upcase char-upper-case? char-whitespace? char? char<? char<=? char=? char>? char>=? close-input-port close-output-port complex? cond cons cos current-input-port current-output-port define define-syntax delay denominator display do dynamic-wind eof-object? eq? equal? eqv? eval even? exact->inexact exact? exp expt floor for-each force gcd if imag-part inexact->exact inexact? input-port? integer->char integer? interaction-environment lambda lcm length let let-syntax let* letrec letrec-syntax list list->string list->vector list-ref list-tail list? load log magnitude make-polar make-rectangular make-string make-vector map max member memq memv min modulo negative? newline not null-environment null? number->string number? numerator odd? open-input-file open-output-file or output-port? pair? peek-char positive? procedure? quasiquote quote quotient rational? rationalize read read-char real-part real? remainder reverse round scheme-report-environment set-car! set-cdr! set! sin sqrt string string->list string->number string->symbol string-append string-ci<? string-ci<=? string-ci=? string-ci>? string-ci>=? string-copy string-fill! string-length string-ref string-set! string? string<? string<=? string=? string>? string>=? substring symbol->string symbol? tan truncate values vector vector->list vector-fill! vector-length vector-ref vector-set! vector? with-input-from-file with-output-to-file write write-char zero?`
As with any library other than (scheme base), implementations SHOULD (rather than MUST) provide this. A disclaimer will be added that the semantics may not be exactly the same.
Vote yes to add this library.
The (scheme r6rs base) library exports the standard identifiers of the base library of R6RS. By my current reckoning, those identifiers are as follows:
`- * / + < <= = > >= abs acos and angle append apply asin atan begin boolean? call/cc call-with-current-continuation call-with-values car case cdr ceiling char? char<? char<=? char=? char>? char>=? char->integer complex? cond cons cos define define-syntax denominator dynamic-wind eq? equal? eqv? even? exact exact? exact-integer-sqrt exp expt finite? floor for-each gcd guard if imag-part import inexact inexact? integer? integer->char lambda lcm length let let* let*-values letrec letrec* letrec-syntax let-syntax let-values list list? list->string list->vector list-ref list-tail log magnitude make-polar make-rectangular make-string make-vector map max min nan? negative? not null? number? number->string numerator odd? or pair? positive? procedure? quasiquote quote rational? rationalize real? real-part reverse round set! sin sqrt string string? string<? string<=? string=? string>? string>=? string->list string->number string->symbol string-append string-copy string-for-each string-length string-ref substring symbol? symbol->string tan truncate values vector vector? vector->list vector-fill! vector-for-each vector-length vector-map vector-ref vector-set! zero?`
As with any library other than (scheme base), implementations SHOULD (rather than MUST) provide this. Full compliance will depend on voting for the procedures *-valued, assert, boolean=?, symbol=?. A disclaimer will be added that the semantics will not be exactly the same.
Vote yes to add this library.
Currently, to export my:foo and my:bar as foo and bar, one must write (export (rename my:foo foo) (rename my:bar bar)). This proposal allows (export (rename (my:foo foo) (my:bar bar))). This is incompatible with R6RS, but compatible with the rename sub-form of import.
Vote multiple to allow multiple renames in one rename clause as with the import version, r6rs to allow the R6RS-compatible syntax in the current draft, or both to allow both forms.
It's already a requirement that an eof-object cannot have an external representation, which means it cannot be any of the basic types in Section 3.2 except procedure or port. This is very improbable, and in fact none of my 40 test Schemes returns either a procedure or a port.
Doing this would allow eof-object? to be added to the list of disjoint type predicates in Section 3.2.
Vote yes to explicitly list the eof-object as a separate disjoint type.
Specifically R7RS, IEEE-float, full-Unicode, Windows, POSIX, Unix, Darwin, Linux, BSD, FreeBSD, Solaris, PPC, SPARC, JVM, CLR, LLVM, ILP32, LP64, ILP64.
Note this is incompatible with existing implementations which provide these features. The correct case can often be ambiguous, and it's easiest to keep everything consistently lower case.
Vote mixed for mixed case and lower for lower case.
If an exception is caught and leaves the current dynamic extent, obviously the after thunk must be run, but an uncaught exception has no semantics and is basically reverting to "is an error" semantics,
Possibly we should tighten this up in the standard, i.e. specify that there is a default exception handler which enters a continuation outside the extent of the whole program before exiting.
Vote unwind to specify that there is a default exception handler which leaves the current dynamic extent causing a full unwind (and thus forbidding a debugger), exit to specify that (modulo any diagnostic information) the program must simply exit without unwinding, or unspecified to leave this as is.
Currently the report is silent about whether dynamic-wind handlers are invoked when exit is called.
The options are the same as in #335 above.
eof-object returns an object which answers #t to eof-object?. This procedure is present in R6RS, where it must return the unique end-of-file object; that is not required here.
From Vincent Manis:
This isn't just an attempt to create a vain orthogonality; there are good reasons why arbitrary code might wish to return an eof object. For example, a DBMS interface might have a routine that returns one row, as a list or a vector, at a time; after the last, it is perfectly reasonable to return an eof object.
An argument against providing this is that the constructor may be trivially written, as shown [below]. A similar argument could be applied to zero?, newline, quotient, remainder, and modulo, among others. R7RS is not afraid to provide easy-to-implement procedures in the name of simplicity, orthogonality, or historical compatibility. The lack of an eof constructor is worth remedying.
(let* ((p (open-input-string "")) (x (read p))) (close-port p) x)Vote eof-object for a procedure of that name, or none to not add any such procedure.
Currently the identifiers in library names can be any identifier. Under this proposal, the identifiers must not include any of `| \ ?* < " : > + [ ] /` or control characters after escapes are expanded.
If this proposal fails, its content will be included non-normatively as a should not.
Vote yes to restrict with must not.
Libraries do not necessarily have any mapping to files, nor does an implementation necessarily run on a system with a filesystem, however for those implementations which do so it may be worth adding such a note.
A library file contains a single library. A library named (A1 A2 AN) is in a file named "A1/A2/AN.sld" ("sld" for "Scheme Library Definition" or some other standardized file extension), relative to some "library path". For portability, library component names should be integers or lower-case identifiers that avoid certain prohibited characters. When a library or top-level imports some other library, the corresponding file is found in the obvious way.
Alternately, this can be left entirely to WG2 and/or packaging systems such as Snow.
Vote yes to add such a note or no to leave it out.
It is currently an error to attempt to import the same identifier from more than one library into another library or a top-level program, even if the identifier is not used anywhere in the new library or program. That requires programmers to make an arbitrary decision to exclude it from one library or the other.
Vote yes to agree with this proposal to require that, within a single static library (not with the environment procedure where any identifier may be subsequently used), an implementation must allow such multiple imports if the identifier is not referenced and does not occur in a syntax-rules template (which introduces conflicts with low-level macros introduced by WG2).
Currently, read-bytevector and read-bytevector! return an EOF object at EOF; otherwise, the number of bytes read is returned. Returning 0 at EOF instead would make the result always an exact integer. The only ambiguity would be that reading a bytevector of length 0 (which is to say, not reading any bytes at all) would not report EOF. The distinction may be useful in future non-blocking extensions, where no data may be available but the port is still open.
Vote zero to return 0 as in the proposal, and eof-object to return the eof-object as in the current draft.
All Scheme standards up to and including R6RS and R7RS draft-6 have consistently placed the full domain at the beginning of each entry. In most cases the domain consists only of the implicit type restrictions from the prototype, but in some cases there are additional domain restrictions that cannot be conveniently included in the prototype such as the following map restrictions:
It is an error if proc does not accept as many arguments as there are lists and return a single value.
It has been suggested to move this to an appropriate later point in the entry, to put more emphasis on the initial entry description. This has the disadvantage of splitting the domain into two places, which can more easily cause oversights and make quick domain confirmations difficult.
An alternative is to separate the additional domain restrictions from the initial description, as a separate short paragraph immediately following the prototype and possibly de-emphasized by making it smaller. his would keep the domain in one place and still allow let the first line of the description stand out prominently in the initial paragraph.
Vote start for the status quo, start-split for the separate de-emphasized option, or later to move additional restrictions to a later point.
Currently, the draft report implies that 0.0 and -0.0 must be the same in the sense of eqv?, because eqv? defers to = for numbers (with the possible exception of NaNs).
Vote same for the status quo, different to change to "must be different", or unspecified to change to "may be different".
Currently, R7RS (tracking R5RS) does not constrain the sizes of exact integers beyond being required to represent the indices of strings, vectors and bytevectors.
R6RS requires systems to support "practically unlimited" size exact integers. It also requires that a subset of these exist, called fixnums, which must support at least the range -223 to 223-1. (All practical Schemes have larger ranges for their fixnums). This proposal suggests that we adopt this range as the minimum range of R7RS exact integers.
The immediate issue here is that a library name may contain (non-negative) exact integers as well as identifiers in R7RS. For such names to be portable, there must be a portable range of exact integers.
See FixnumInfo to see what 39 existing Schemes do.
Vote 24 to require 24 bits of precision, or none to leave this entirely unspecified.