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guile/module/system/base/syntax.scm
Andy Wingo b0b180d522 nifty generic compiler infrastructure -- no more hardcoded passes 
* module/system/base/language.scm (<language>): Rework so that instead of
  hardcoding passes in the language, we define compilers that translate
  from one language to another. Add `parser' to the language fields, a
  bit of a hack but useful for languages with s-expression external
  representations but with record internal representations.
  (define-language, *compilation-cache*, invalidate-compilation-cache!)
  (compute-compilation-order, lookup-compilation-order): Add an algorithm
  that does a depth-first search for a translation path from a source
  language to a target language, caching the result in a lookup table.

* module/language/scheme/spec.scm:
* module/language/ghil/spec.scm: Update to the new language format.

* module/language/glil/spec.scm: Add a language specification for GLIL,
  with a compiler to objcode. Also there are parsers and printers, for
  repl usage, but for some reason this doesn't work yet.

* module/language/objcode/spec.scm: Define a language specification for
  object code. There is some sleight of hand here, in the "compiler" to
  values; but there is method behind the madness, because this way we
  higher levels can pass environments (a module + externals pair) to
  objcode->program.

* module/language/value/spec.scm: Define a language specification for
  values. There is something intellectually dishonest about this, but it
  does serve its purpose as a foundation for the language hierarchy.

* configure.in:
* module/language/Makefile.am
* module/language/ghil/Makefile.am
* module/language/glil/Makefile.am
* module/language/objcode/Makefile.am
* module/language/value/Makefile.am:
  Autotomfoolery for the ghil, glil, objcode, and value languages.

* module/language/scheme/translate.scm (translate): Import the bits that
  understand `compile-time-environment' here, and pass on the relevant
  portions of the environment to the next compiler pass.

* module/system/base/compile.scm (current-language): New procedure, refs
  the current language fluid, or lazily sets it to scheme.
  (call-once, call-with-output-file/atomic): Refactor these bits to use
  with-throw-handler. No functional change.
  (compile-file, compile-and-load, compile-passes, compile-fold)
  (compile): Refactor the public interface of the compiler to be generic
  and simple. Uses `lookup-compilation-order' to find a path from the
  source language to the target language.

* module/system/base/syntax.scm (define-type): Adapt to changes in
  define-record.
  (define-record): Instead of expecting all slots in the first form,
  expect them in the body, and let the first form hold the options.

* module/system/il/compile.scm (compile): Adapt to the compilation pass
  API (three in and two out).

* module/system/il/ghil.scm (<ghil-var>, <ghil-env>)
  (<ghil-toplevel-env>): Adapt to define-record changes.

* module/system/il/glil.scm (<glil-vars>): Adapt to define-record
  changes.
  (<glil>, print-glil): Add a GLIL record printer that uses unparse.
  (parse-glil, unparse-glil): Update unparse (formerly known as pprint),
  and write a parse function.

* module/system/repl/common.scm (<repl>): Adapt to define-record changes.
  (repl-parse): New function, parses the read form using the current
  language. Something of a hack.
  (repl-compile): Adapt to changes in `compile'.
  (repl-eval): Fix up the does-the-language-have-a-compiler check for
  changes in <language>.

* module/system/repl/repl.scm (start-repl): Parse the form before eval.

* module/system/repl/command.scm (describe): Parse.
  (compile): Be more generic.
  (compile-file): Adapt to changes in compile-file.
  (disassemble, time, profile, trace): Parse.

* module/system/vm/debug.scm:
* module/system/vm/assemble.scm: Adapt to define-record changes.

* module/language/scheme/translate.scm (receive): Fix an important bug
  that gave `receive' letrec semantics instead of let semantics. Whoops!
2008-11-14 22:42:31 +01:00

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;;; Guile VM specific syntaxes and utilities
;; Copyright (C) 2001 Free Software Foundation, Inc
;; This program is free software; you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation; either version 2, or (at your option)
;; any later version
;;
;; This program is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details
;;
;; You should have received a copy of the GNU General Public License
;; along with this program; see the file COPYING. If not, write to
;; the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
;; Boston, MA 02111-1307, USA
;;; Code:
(define-module (system base syntax)
#:export (%compute-initargs)
#:export-syntax (define-type define-record record-case))
;;;
;;; Type
;;;
(define-macro (define-type name . rest)
(let ((name (if (pair? name) (car name) name))
(opts (if (pair? name) (cdr name) '())))
(let ((printer (kw-arg-ref opts #:printer)))
`(begin ,@(map (lambda (def)
`(define-record ,(if printer
`(,(car def) ,printer)
(car def))
,@(cdr def)))
rest)))))
;;;
;;; Record
;;;
(define (symbol-trim-both sym pred)
(string->symbol (string-trim-both (symbol->string sym) pred)))
(define-macro (define-record name-form . slots)
(let* ((name (if (pair? name-form) (car name-form) name-form))
(printer (and (pair? name-form) (cadr name-form)))
(slot-names (map (lambda (slot) (if (pair? slot) (car slot) slot))
slots))
(stem (symbol-trim-both name (list->char-set '(#\< #\>)))))
`(begin
(define ,name (make-record-type ,(symbol->string name) ',slot-names
,@(if printer (list printer) '())))
(define ,(symbol-append 'make- stem)
(let ((slots (list ,@(map (lambda (slot)
(if (pair? slot)
`(cons ',(car slot) ,(cadr slot))
`',slot))
slots)))
(constructor (record-constructor ,name)))
(lambda args
(apply constructor (%compute-initargs args slots)))))
(define ,(symbol-append stem '?) (record-predicate ,name))
,@(map (lambda (sname)
`(define ,(symbol-append stem '- sname)
(make-procedure-with-setter
(record-accessor ,name ',sname)
(record-modifier ,name ',sname))))
slot-names))))
(define (%compute-initargs args slots)
(define (finish out)
(map (lambda (slot)
(let ((name (if (pair? slot) (car slot) slot)))
(cond ((assq name out) => cdr)
((pair? slot) (cdr slot))
(else (error "unbound slot" args slots name)))))
slots))
(let lp ((in args) (positional slots) (out '()))
(cond
((null? in)
(finish out))
((keyword? (car in))
(let ((sym (keyword->symbol (car in))))
(cond
((and (not (memq sym slots))
(not (assq sym (filter pair? slots))))
(error "unknown slot" sym))
((assq sym out) (error "slot already set" sym out))
(else (lp (cddr in) '() (acons sym (cadr in) out))))))
((null? positional)
(error "too many initargs" args slots))
(else
(lp (cdr in) (cdr positional)
(let ((slot (car positional)))
(acons (if (pair? slot) (car slot) slot)
(car in)
out)))))))
(define-macro (record-case record . clauses)
(let ((r (gensym)))
(define (process-clause clause)
(if (eq? (car clause) 'else)
clause
(let ((record-type (caar clause))
(slots (cdar clause))
(body (cdr clause)))
`(((record-predicate ,record-type) ,r)
(let ,(map (lambda (slot)
(if (pair? slot)
`(,(car slot) ((record-accessor ,record-type ',(cadr slot)) ,r))
`(,slot ((record-accessor ,record-type ',slot) ,r))))
slots)
,@body)))))
`(let ((,r ,record))
(cond ,@(let ((clauses (map process-clause clauses)))
(if (assq 'else clauses)
clauses
(append clauses `((else (error "unhandled record" ,r))))))))))
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