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## Confirmed deviations

Identifiers are by default case-sensitive (see Using the compiler).

### Number of arguments to procedures and macros

The maximal number of arguments that may be passed to a compiled procedure or macro is 120. (However, a macro-definition that has a single rest-parameter can have any number of arguments.) Likewise, the maximum number of values that can be passed to continuations captured using `call-with-current-continuation` is 120. This is an implementation restriction that is unlikely to be lifted.

`numerator`, `denominator` and `rationalize`

The `numerator` and `denominator` procedures cannot be applied to inexact numbers, and the procedure `rationalize` is not implemented at all.

### Numeric string-conversion considerations

The runtime system uses the numerical string-conversion routines of the underlying C library and so does only understand standard (C-library) syntax for floating-point constants. Consequently, the procedures `string->number`, `read`, `write`, and `display` do not obey read/write invariance to inexact numbers.

### Environments and non-standard syntax

Code evaluated in `scheme-report-environment` or `null-environment` still sees non-standard syntax.

## Unconfirmed deviations

`char-ready?`

The procedure `char-ready?` always returns `#t` for terminal ports.

## Doubtful deviations

`letrec`

`letrec` does evaluate the initial values for the bound variables sequentially and not in parallel, that is:

(letrec ((x 1) (y 2)) (cons x y))

is equivalent to

(let((x (void)) (y (void))) (set! x 1) (set! y 2) (cons x y) )

where R5RS requires

(let((x (void)) (y (void))) (let((tmp1 1) (tmp2 2)) (set! x tmp1) (set! y tmp2) (cons x y) ) )

It is unclear whether R5RS permits this behavior or not; in any case, this only affects letrecs where the bound values are not lambda-expressions.

## Non-deviations that might surprise you

`let-syntax` and `letrec-syntax`

`let-syntax` and `letrec-syntax` introduce a new scope.

`equal?` compares all structured data recursively

`equal?` compares all structured data recursively, while R5RS specifies that `eqv?` is used for data other than pairs, strings and vectors. However, R5RS does not dictate the treatment of data types that are not specified by R5RS.

### No built-in support for bignums

There is no built-in support for exact rationals, complex numbers or extended-precision integers (bignums). The routines `complex?`, `real?` and `rational?` are identical to the standard procedure `number?`. The procedures `make-rectangular` and `make-polar` are not implemented. Fixnums are limited to 2^^{30} (or 2^^{62} on 64-bit hardware). Support for the full numeric tower is available as a separate package, provided the GNU multiprecision library is installed.

`transcript-on` and `transcript-off` are not implemented

The `transcript-on` and `transcript-off` procedures are not implemented. R5RS does not require them.

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