(read-case-sensitive #f) (read-accept-infix-dot #f) (read-curly-brace-as-paren #f) (read-square-bracket-as-paren #f)
The r5rs bindings can be imported into a top-level environment, and then evaluation in that top-level environment corresponds to R5RS. Use (namespace-require/copy 'r5rs) with an empty namespace to maximize conformance with R5RS; Using (namespace-require 'r5rs), in contrast, creates primitive bindings as imports, which is the same as using plt-r5rs without the --no-prim flag. More simply, use (scheme-report-environment 5). See also r5rs/init, which sets reader and printer parameters to increase conformance.
Using r5rs via #lang creates a module whose body is implemented with an R5RS-like language. The main difference from R5RS is that, as a module language, r5rs does not allow redefinition of top-level bindings, and expressions evaluated through load and eval cannot automatically access bindings defined within the module.
3.1 Non-R5RS Bindings from r5rs
In addition to the bindings defined by R5RS, the r5rs library provides the following bindings from racket/base (which are not legal identifiers in R5RS syntax, so there is no danger of collisions in R5RS programs):
It also provides racket’s #%plain-module-begin as #%module-begin. Note that #%require can be used to import Racket libraries into an otherwise R5RS program, and #%provide can be used to export from a module that is implemented in an R5RS-like language.
An R5RS environment is implemented as a racket/base namespace. Also, relative to racket/base, the expr passed to eval is constructed using mutable pairs.
The scheme-report-environment function returns a namespace containing the bindings of r5rs. Procedure values are installed into the namespace using namespace-require/copy, so that they can be redefined.