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guile-bootstrap / guile /test-suite /tests /rtl-compilation.test
mike dupont
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 ;;;; rtl-compilation.test --- test suite for compiling via bytecode -*- scheme -*-
;;;;
;;;; Copyright (C) 2013 Free Software Foundation, Inc.
;;;;
;;;; This library is free software; you can redistribute it and/or
;;;; modify it under the terms of the GNU Lesser General Public
;;;; License as published by the Free Software Foundation; either
;;;; version 3 of the License, or (at your option) any later version.
;;;;
;;;; This library 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
;;;; Lesser General Public License for more details.
;;;;
;;;; You should have received a copy of the GNU Lesser General Public
;;;; License along with this library; if not, write to the Free Software
;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
(define-module (test-suite bytecode-compilation)
#:use-module (test-suite lib)
#:use-module (system base compile)
#:use-module (system vm loader))
(define* (compile-via-bytecode exp #:key peval? cse? (env (make-fresh-user-module)))
(load-thunk-from-memory
(compile exp #:env env #:to 'bytecode
#:opts `(#:partial-eval? ,peval? #:cse? ,cse?))))
(define* (run-bytecode exp #:key (env (make-fresh-user-module)))
(let ((thunk (compile-via-bytecode exp #:env env)))
(save-module-excursion
(lambda ()
(set-current-module env)
(thunk)))))
(with-test-prefix "tail context"
(pass-if-equal 1
(run-bytecode '(let ((x 1)) x)))
(pass-if-equal 1
(run-bytecode 1))
(pass-if-equal (if #f #f)
(run-bytecode '(if #f #f)))
(pass-if-equal "top-level define"
(list (if #f #f) 1)
(let ((mod (make-fresh-user-module)))
(let ((result (run-bytecode '(define v 1) #:env mod)))
(list result (module-ref mod 'v)))))
(pass-if-equal "top-level set!"
(list (if #f #f) 1)
(let ((mod (make-fresh-user-module)))
(module-define! mod 'v #f)
(let ((result (run-bytecode '(set! v 1) #:env mod)))
(list result (module-ref mod 'v)))))
(pass-if-equal "top-level apply [single value]"
8
(let ((mod (make-fresh-user-module)))
(module-define! mod 'args '(2 3))
(run-bytecode '(apply expt args) #:env mod)))
(pass-if-equal "top-level apply [zero values]"
'()
(let ((mod (make-fresh-user-module)))
(module-define! mod 'proc (lambda () (values)))
(module-define! mod 'args '())
(call-with-values
(lambda () (run-bytecode '(apply proc args) #:env mod))
list)))
(pass-if-equal "top-level apply [two values]"
'(1 2)
(let ((mod (make-fresh-user-module)))
(module-define! mod 'proc (lambda (n d) (floor/ n d)))
(module-define! mod 'args '(5 3))
(call-with-values
(lambda () (run-bytecode '(apply proc args) #:env mod))
list)))
(pass-if-equal "call-with-values"
'(1 2 3)
((run-bytecode '(lambda (n d)
(call-with-values (lambda () (floor/ n d))
(lambda (q r) (list q r (+ q r))))))
5 3))
(pass-if-equal cons
(run-bytecode 'cons))
(pass-if-equal 1
((run-bytecode '(lambda () 1))))
(pass-if-equal 1
((run-bytecode '(lambda (x) 1)) 2))
(pass-if-equal 1
((run-bytecode '(lambda (x) x)) 1))
(pass-if-equal 6
((((run-bytecode '(lambda (x)
(lambda (y)
(lambda (z)
(+ x y z))))) 1) 2) 3))
(pass-if-equal 1
(run-bytecode '(identity 1)))
(pass-if-equal '(1 . 2)
(run-bytecode '(cons 1 2)))
(pass-if-equal '(1 2)
(call-with-values (lambda () (run-bytecode '(values 1 2))) list))
(pass-if-equal 28
((run-bytecode '(lambda (x y z rest) (apply + x y z rest)))
2 3 5 '(7 11)))
;; prompts
)
(with-test-prefix "value context"
1
)
(with-test-prefix "drop context"
1
)
(with-test-prefix "test context"
1
)
(with-test-prefix "values context"
(pass-if-equal '(3 . 1)
(run-bytecode
'(let ((rat (lambda (n d)
(call-with-values
(lambda () (floor/ n d))
(lambda (q r)
(cons q r))))))
(rat 10 3)))))
(with-test-prefix "contification"
(pass-if ((run-bytecode '(lambda (x)
(define (even? x)
(if (null? x) #t (odd? (cdr x))))
(define (odd? x)
(if (null? x) #f (even? (cdr x))))
(even? x)))
'(1 2 3 4)))
(pass-if (not ((run-bytecode '(lambda (x)
(define (even? x)
(if (null? x) #t (odd? (cdr x))))
(define (odd? x)
(if (null? x) #f (even? (cdr x))))
(even? x)))
'(1 2 3))))
(pass-if-equal '(#t)
((run-bytecode '(lambda (x)
(define (even? x)
(if (null? x) #t (odd? (cdr x))))
(define (odd? x)
(if (null? x) #f (even? (cdr x))))
(list (even? x))))
'(1 2 3 4)))
;; An irreducible loop between even? and odd?.
(pass-if-equal '#t
((run-bytecode '(lambda (x do-even?)
(define (even? x)
(if (null? x) #t (odd? (cdr x))))
(define (odd? x)
(if (null? x) #f (even? (cdr x))))
(if do-even? (even? x) (odd? x))))
'(1 2 3 4)
#t)))
(with-test-prefix "case-lambda"
(pass-if-equal "simple"
'(0 3 9 28)
(let ((proc (run-bytecode '(case-lambda
(() 0)
((x) x)
((x y) (+ x y))
((x y z . rest) (apply + x y z rest))))))
(map (lambda (args) (apply proc args))
'(() (3) (2 7) (2 3 5 7 11)))))
(pass-if-exception "no match"
exception:wrong-num-args
((run-bytecode '(case-lambda ((x) x) ((x y) (+ x y))))
1 2 3))
(pass-if-exception "zero clauses called with no args"
exception:wrong-num-args
((run-bytecode '(case-lambda))))
(pass-if-exception "zero clauses called with args"
exception:wrong-num-args
((run-bytecode '(case-lambda)) 1)))
(with-test-prefix "mixed contexts"
(pass-if-equal "sequences" '(3 4 5)
(let* ((pair (cons 1 2))
(result ((run-bytecode '(lambda (pair)
(set-car! pair 3)
(set-cdr! pair 4)
5))
pair)))
(list (car pair)
(cdr pair)
result)))
(pass-if-equal "mutable lexicals" 2
(run-bytecode '(let ((n 1)) (set! n 2) n))))