WG1 Library Syntax
Alex Shinn
A simple, static module syntax is provided which can easily be implemented on top of existing module systems. It's functionally a subset of R6RS, equivalent to the R6RS-- option (i.e. R6RS without versioning or phasing), differing by a minor syntactic difference.
The charter explicitly requires a module system:
To promote extensibility, the language developed by working group 1 must include support for macros and modules in a way that is appropriate for the language's size and goals. Semantics compatible with interactive read/eval/print loops should be provided.
Module systems serve the purpose of encapsulating code and managing namespaces. Although lambda lets us manage local identifiers, it does't allow us to encapsulate macros, and it wants for a friendlier interface for typical "module-like" uses.
Anything beyond such a simple static definition of what a module "looks like" can be difficult to impossible to implement in existing module systems, much less integrate seamlessly with their own modules.
A module definition takes the following form:
(library <module-name> <module-declarations>)The keyword library is used for compatibility with R6RS - except for this one keyword, this proposal will refer to modules (reserving the option to change terminology at a later date, if the members so vote).
The module name is a list of symbols or exact integers specifying the name of the module, for use when importing from other modules. R6RS does not allow non-symbol components, but as this is popular and convenient for numeric concepts such as (srfi 1) and (rfc 821) it is explicitly allowed.
The <module-declarations> can be any of:
Future standards may extend the syntax with additional forms.
export specifies a set of bindings to be exported. Each <export-spec> has one of the two forms:
where the former exports the identifier with the same name, and the latter can be used to rename the identifier on export.
import specifies one or more modules to import into the current module. An <import-set> has one of the following forms:
By default, all of the bindings in a module's export clause are imported with the same names (or the exported names if exported with a rename form). The additional <import-set> forms modify this as identically to R6RS, as follows:
It is a syntax error if the same identifier is imported twice, from any combination of modules or multiple import forms.
body and include declarations provide a means to specify the Scheme code that makes up the body of the module. body takes the forms literally and splices them as a begin, whereas include takes one or more file names, reads all the top-level forms in the files, and splices the results. The forms from all body and include declarations are expanded in the order in which they occur in the module declaration.
The bodies of an imported module may be evaluated multiple times, but will be evaluated at least once before the body of any module which imports it is evaluated. It is a syntax error if any set of modules form a cyclic import dependency.
To load a module into an interactive REPL, a REPL should extend the standard environment with an import form that works as within a module declaration, but importing the bindings directly into the REPL environment.
This has disadvantages as opposed to an out-of-bounds means such as that provided by Scheme48, but is easy to remember, allowing users to pick up new implementations quickly, and also mirrors the top-level program syntax, allowing cut&paste of scripts.
Multiple imports of the same identifier in the same import is still a syntax error, however identifiers may later be rebound by subsequent imports.
Top-level programs function the same as in R6RS - a top-level import form is allowed as in the REPL, and the command-line arguments are available with the command-line procedure.
This is a trivial syntactic variation of a subset of R6RS. Any static module system (including R6RS) would need to add support for the varied syntax. A syntactic module system could support it with a wrapper macro expanding into the native module form. A meta module system could support it with a new meta form expanding into the native module form.
The syntactic variation was inspired by Scheme48, which removes the ugliness of the completely fixed syntax in R6RS (both export and import are required, and their order can't be changed), allows room for extensions to be made easily, and even opens the possibility of forwards compatible extensions by simply ignoring unknown module forms.
The R5RS has no module system, so implementations all provide their own incompatible module systems. To work together and with WG1 standard Scheme implementations, they should support the specified library syntax in addition to (or in place of) their current syntax.
The syntax is largely a subset of the R6RS library form, with the exception that there is no implicit body. To support WG1 library forms, the core library (e.g. (rnrs 7)) should provide two macros, include and body. body can be defined simply as an alias for begin:
(define-syntax body (syntax-rules () ((body x ...) (begin x ...))))include can't be defined with syntax-rules, but can in a low-level macro system. The R6RS library specification gives a sample definition of include.
WG2 will likely need to address phasing issues, and provide the equivalent of the R6RS for form.