/usr/share/gauche-0.9/0.9.5/lib/srfi-78.scm is in gauche 0.9.5-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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;;; srfi-78, taken from the reference implementation.
;;;
;; Adapted for Gauche
(define-module srfi-78
(use srfi-42)
(export check check-ec check-report check-set-mode! check-reset!
check-passed?))
(select-module srfi-78)
;
; Copyright (c) 2005-2006 Sebastian Egner.
;
; Permission is hereby granted, free of charge, to any person obtaining
; a copy of this software and associated documentation files (the
; ``Software''), to deal in the Software without restriction, including
; without limitation the rights to use, copy, modify, merge, publish,
; distribute, sublicense, and/or sell copies of the Software, and to
; permit persons to whom the Software is furnished to do so, subject to
; the following conditions:
;
; The above copyright notice and this permission notice shall be
; included in all copies or substantial portions of the Software.
;
; THE SOFTWARE IS PROVIDED ``AS IS'', WITHOUT WARRANTY OF ANY KIND,
; EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
; MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
; NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
; LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
; OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
; WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
;
; -----------------------------------------------------------------------
;
; Lightweight testing (reference implementation)
; ==============================================
;
; Sebastian.Egner@philips.com
; in R5RS + SRFI 23 (error) + SRFI 42 (comprehensions)
;
; history of this file:
; SE, 25-Oct-2004: first version based on code used in SRFIs 42 and 67
; SE, 19-Jan-2006: (arg ...) made optional in check-ec
;
; Naming convention "check:<identifier>" is used only internally.
; -- portability --
; PLT: (require (lib "23.ss" "srfi") (lib "42.ss" "srfi"))
; Scheme48: ,open srfi-23 srfi-42
; -- utilities --
(define check:write write)
; You can also use a pretty printer if you have one.
; However, the output might not improve for most cases
; because the pretty printers usually output a trailing
; newline.
; PLT: (require (lib "pretty.ss")) (define check:write pretty-print)
; Scheme48: ,open pp (define check:write p)
; -- mode --
(define check:mode #f)
(define (check-set-mode! mode)
(set! check:mode
(case mode
((off) 0)
((summary) 1)
((report-failed) 10)
((report) 100)
(else (error "unrecognized mode" mode)))))
(check-set-mode! 'report)
; -- state --
(define check:correct #f)
(define check:failed #f)
(define (check-reset!)
(set! check:correct 0)
(set! check:failed '()))
(define (check:add-correct!)
(set! check:correct (+ check:correct 1)))
(define (check:add-failed! expression actual-result expected-result)
(set! check:failed
(cons (list expression actual-result expected-result)
check:failed)))
(check-reset!)
; -- reporting --
(define (check:report-expression expression)
(newline)
(check:write expression)
(display " => "))
(define (check:report-actual-result actual-result)
(check:write actual-result)
(display " ; "))
(define (check:report-correct cases)
(display "correct")
(if (not (= cases 1))
(begin (display " (")
(display cases)
(display " cases checked)")))
(newline))
(define (check:report-failed expected-result)
(display "*** failed ***")
(newline)
(display " ; expected result: ")
(check:write expected-result)
(newline))
(define (check-report)
(if (>= check:mode 1)
(begin
(newline)
(display "; *** checks *** : ")
(display check:correct)
(display " correct, ")
(display (length check:failed))
(display " failed.")
(if (or (null? check:failed) (<= check:mode 1))
(newline)
(let* ((w (car (reverse check:failed)))
(expression (car w))
(actual-result (cadr w))
(expected-result (caddr w)))
(display " First failed example:")
(newline)
(check:report-expression expression)
(check:report-actual-result actual-result)
(check:report-failed expected-result))))))
(define (check-passed? expected-total-count)
(and (= (length check:failed) 0)
(= check:correct expected-total-count)))
; -- simple checks --
(define (check:proc expression thunk equal expected-result)
(case check:mode
((0) #f)
((1)
(let ((actual-result (thunk)))
(if (equal actual-result expected-result)
(check:add-correct!)
(check:add-failed! expression actual-result expected-result))))
((10)
(let ((actual-result (thunk)))
(if (equal actual-result expected-result)
(check:add-correct!)
(begin
(check:report-expression expression)
(check:report-actual-result actual-result)
(check:report-failed expected-result)
(check:add-failed! expression actual-result expected-result)))))
((100)
(check:report-expression expression)
(let ((actual-result (thunk)))
(check:report-actual-result actual-result)
(if (equal actual-result expected-result)
(begin (check:report-correct 1)
(check:add-correct!))
(begin (check:report-failed expected-result)
(check:add-failed! expression
actual-result
expected-result)))))
(else (error "unrecognized check:mode" check:mode)))
(if #f #f))
(define-syntax check
(syntax-rules (=>)
((check expr => expected)
(check expr (=> equal?) expected))
((check expr (=> equal) expected)
(if (>= check:mode 1)
(check:proc 'expr (lambda () expr) equal expected)))))
; -- parametric checks --
(define (check:proc-ec w)
(let ((correct? (car w))
(expression (cadr w))
(actual-result (caddr w))
(expected-result (cadddr w))
(cases (car (cddddr w))))
(if correct?
(begin (if (>= check:mode 100)
(begin (check:report-expression expression)
(check:report-actual-result actual-result)
(check:report-correct cases)))
(check:add-correct!))
(begin (if (>= check:mode 10)
(begin (check:report-expression expression)
(check:report-actual-result actual-result)
(check:report-failed expected-result)))
(check:add-failed! expression
actual-result
expected-result)))))
(define-syntax check-ec:make
(syntax-rules (=>)
((check-ec:make qualifiers expr (=> equal) expected (arg ...))
(if (>= check:mode 1)
(check:proc-ec
(let ((cases 0))
(let ((w (first-ec
#f
qualifiers
(:let equal-pred equal)
(:let expected-result expected)
(:let actual-result
(let ((arg arg) ...) ; (*)
expr))
(begin (set! cases (+ cases 1)))
(if (not (equal-pred actual-result expected-result)))
(list (list 'let (list (list 'arg arg) ...) 'expr)
actual-result
expected-result
cases))))
(if w
(cons #f w)
(list #t
'(check-ec qualifiers
expr (=> equal)
expected (arg ...))
(if #f #f)
(if #f #f)
cases)))))))))
; (*) is a compile-time check that (arg ...) is a list
; of pairwise disjoint bound variables at this point.
(define-syntax check-ec
(syntax-rules (nested =>)
((check-ec expr => expected)
(check-ec:make (nested) expr (=> equal?) expected ()))
((check-ec expr (=> equal) expected)
(check-ec:make (nested) expr (=> equal) expected ()))
((check-ec expr => expected (arg ...))
(check-ec:make (nested) expr (=> equal?) expected (arg ...)))
((check-ec expr (=> equal) expected (arg ...))
(check-ec:make (nested) expr (=> equal) expected (arg ...)))
((check-ec qualifiers expr => expected)
(check-ec:make qualifiers expr (=> equal?) expected ()))
((check-ec qualifiers expr (=> equal) expected)
(check-ec:make qualifiers expr (=> equal) expected ()))
((check-ec qualifiers expr => expected (arg ...))
(check-ec:make qualifiers expr (=> equal?) expected (arg ...)))
((check-ec qualifiers expr (=> equal) expected (arg ...))
(check-ec:make qualifiers expr (=> equal) expected (arg ...)))
((check-ec (nested q1 ...) q etc ...)
(check-ec (nested q1 ... q) etc ...))
((check-ec q1 q2 etc ...)
(check-ec (nested q1 q2) etc ...))))
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