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guile/module/system/repl/repl.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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;;; Read-Eval-Print Loop
;; 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 repl repl)
#:use-syntax (system base syntax)
#:use-module (system base pmatch)
#:use-module (system base compile)
#:use-module (system base language)
#:use-module (system repl common)
#:use-module (system repl command)
#:use-module (system vm vm)
#:use-module (system vm debug)
#:use-module (ice-9 rdelim)
#:export (start-repl call-with-backtrace))
(define meta-command-token (cons 'meta 'command))
(define (meta-reader read)
(lambda read-args
(with-input-from-port
(if (pair? read-args) (car read-args) (current-input-port))
(lambda ()
(if (eqv? (next-char #t) #\,)
(begin (read-char) meta-command-token)
(read))))))
;; repl-reader is a function defined in boot-9.scm, and is replaced by
;; something else if readline has been activated. much of this hoopla is
;; to be able to re-use the existing readline machinery.
(define (prompting-meta-read repl)
(let ((prompt (lambda () (repl-prompt repl)))
(lread (language-reader (repl-language repl))))
(with-fluid* current-reader (meta-reader lread)
(lambda () (repl-reader (lambda () (repl-prompt repl)))))))
(define (default-pre-unwind-handler key . args)
(save-stack default-pre-unwind-handler)
(vm-save-stack (the-vm))
(apply throw key args))
(define (default-catch-handler . args)
(pmatch args
((quit . _)
(apply throw args))
((vm-error ,fun ,msg ,args)
(vm-backtrace (the-vm))
(display "\nVM error: \n")
(apply format #t msg args)
(newline))
((,key ,subr ,msg ,args . ,rest)
(vm-backtrace (the-vm))
(newline)
(let ((cep (current-error-port)))
(cond ((not (stack? (fluid-ref the-last-stack))))
((memq 'backtrace (debug-options-interface))
(let ((highlights (if (or (eq? key 'wrong-type-arg)
(eq? key 'out-of-range))
(car rest)
'())))
(run-hook before-backtrace-hook)
(newline cep)
(display "Backtrace:\n")
(display-backtrace (fluid-ref the-last-stack) cep
#f #f highlights)
(newline cep)
(run-hook after-backtrace-hook))))
(run-hook before-error-hook)
(display-error (fluid-ref the-last-stack) cep subr msg args rest)
(run-hook after-error-hook)
(set! stack-saved? #f)
(force-output cep)))
(else
(format (current-error-port) "\nERROR: uncaught throw to `~a', args: ~a\n"
(car args) (cdr args)))))
(define (call-with-backtrace thunk)
(catch #t
thunk
default-catch-handler
default-pre-unwind-handler))
(define (start-repl lang)
(let ((repl (make-repl lang))
(status #f))
(repl-welcome repl)
(let prompt-loop ()
(let ((exp (call-with-backtrace
(lambda () (prompting-meta-read repl)))))
(cond
((eqv? exp (if #f #f))) ; read error, pass
((eq? exp meta-command-token)
(call-with-backtrace
(lambda ()
(meta-command repl (read-line)))))
((eof-object? exp)
(newline)
(set! status '()))
(else
(call-with-backtrace
(lambda ()
(catch 'quit
(lambda ()
(call-with-values (lambda ()
(run-hook before-eval-hook exp)
(start-stack repl-eval
(repl-eval repl
(repl-parse repl exp))))
(lambda l
(for-each (lambda (v)
(run-hook before-print-hook v)
(repl-print repl v))
l))))
(lambda (k . args)
(set! status args)))))))
(or status
(begin
(next-char #f) ;; consume trailing whitespace
(prompt-loop)))))))
(define (next-char wait)
(if (or wait (char-ready?))
(let ((ch (peek-char)))
(cond ((eof-object? ch) ch)
((char-whitespace? ch) (read-char) (next-char wait))
(else ch)))
#f))
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