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							;;; arithmetic-fixnums.test --- Test suite for R6RS (rnrs arithmetic bitwise)

;;      Copyright (C) 2010, 2011, 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 test-r6rs-arithmetic-fixnums)
  :use-module ((rnrs arithmetic fixnums) :version (6))
  :use-module ((rnrs conditions) :version (6))
  :use-module ((rnrs exceptions) :version (6))
  :use-module (test-suite lib))

(with-test-prefix "fixnum-width"
  (pass-if-equal "consistent with least-fixnum"
      (- (expt 2 (- (fixnum-width) 1)))
    (least-fixnum))
  (pass-if-equal "consistent with greatest-fixnum"
      (- (expt 2 (- (fixnum-width) 1)) 1)
    (greatest-fixnum)))

(with-test-prefix "fixnum?"
  (pass-if "fixnum? is #t for fixnums" (fixnum? 0))

  (pass-if "fixnum? is #f for non-fixnums" (not (fixnum? 'foo)))

  (pass-if "fixnum? is #f for non-fixnum numbers"
    (and (not (fixnum? 1.0)) (not (fixnum? (+ (greatest-fixnum) 1))))))

(with-test-prefix "fx=?"
  (pass-if "fx=? is #t for eqv inputs" (fx=? 3 3 3))
 
  (pass-if "fx=? is #f for non-eqv inputs" (not (fx=? 1 2 3))))

(with-test-prefix "fx>?"
  (pass-if "fx>? is #t for monotonically > inputs" (fx>? 3 2 1))

  (pass-if "fx>? is #f for non-monotonically > inputs" (not (fx>? 1 2 3))))

(with-test-prefix "fx<?"
  (pass-if "fx<? is #t for monotonically < inputs" (fx<? 1 2 3))

  (pass-if "fx<? is #t for non-monotonically < inputs" (not (fx<? 3 2 1))))

(with-test-prefix "fx>=?"
  (pass-if "fx>=? is #t for monotonically > or = inputs" (fx>=? 3 2 2 1))

  (pass-if "fx>=? is #f for non-monotonically > or = inputs" 
    (not (fx>=? 1 2 3))))

(with-test-prefix "fx<=?"
  (pass-if "fx<=? is #t for monotonically < or = inputs" (fx<=? 1 2 2 3))

  (pass-if "fx<=? is #f for non-monotonically < or = inputs" 
    (not (fx<=? 3 2 1))))

(with-test-prefix "fxzero?"
  (pass-if "fxzero? is #t for zero" (fxzero? 0))

  (pass-if "fxzero? is #f for non-zero fixnums" 
    (and (not (fxzero? 1)) (not (fxzero? -1)))))

(with-test-prefix "fxpositive?"
  (pass-if "fxpositive? is #t for positive fixnums" (fxpositive? 1))

  (pass-if "fxpositive? is #f for non-positive fixnums"
    (and (not (fxpositive? -1))
	 (not (fxpositive? 0)))))

(with-test-prefix "fxnegative?"
  (pass-if "fxnegative? is #t for negative fixnums" (fxnegative? -1))

  (pass-if "fxnegative? is #f for non-negative fixnums"
    (and (not (fxnegative? 1))
	 (not (fxnegative? 0)))))

(with-test-prefix "fxodd?"
  (pass-if "fxodd? is #t for odd fixnums" (fxodd? 1))

  (pass-if "fxodd? is #f for even fixnums" (not (fxodd? 2))))    

(with-test-prefix "fxeven?"
  (pass-if "fxeven? is #t for even fixnums" (fxeven? 2))

  (pass-if "fxeven? is #f for odd fixnums" (not (fxeven? 1))))

(with-test-prefix "fxmax" (pass-if "simple" (fx=? (fxmax 1 3 2) 3)))

(with-test-prefix "fxmin" (pass-if "simple" (fx=? (fxmin -1 0 2) -1)))

(with-test-prefix "fx+" 
  (pass-if "simple" (fx=? (fx+ 1 2) 3))
  
  (pass-if "&implementation-restriction on non-fixnum result"
    (guard (condition ((implementation-restriction-violation? condition) #t)
		      (else #f))
	   (begin (fx+ (greatest-fixnum) 1) #f))))

(with-test-prefix "fx*" 
  (pass-if "simple" (fx=? (fx* 2 3) 6))

  (pass-if "&implementation-restriction on non-fixnum result"
    (guard (condition ((implementation-restriction-violation? condition) #t)
		      (else #f))
	   (begin (fx* (greatest-fixnum) 2) #f))))

(with-test-prefix "fx-" 
  (pass-if "unary fx- negates argument" (fx=? (fx- 1) -1))

  (pass-if "simple" (fx=? (fx- 3 2) 1))

  (pass-if "&assertion on non-fixnum result"
    (guard (condition ((assertion-violation? condition) #t) (else #f))
	   (fx- (least-fixnum) 1))))

(with-test-prefix "fxdiv-and-mod"
  (pass-if "simple"
    (call-with-values (lambda () (fxdiv-and-mod 123 10))
      (lambda (d m) 
	(and (fx=? d 12) (fx=? m 3))))))

(with-test-prefix "fxdiv" (pass-if "simple" (fx=? (fxdiv -123 10) -13)))
(with-test-prefix "fxmod" (pass-if "simple" (fx=? (fxmod -123 10) 7)))

(with-test-prefix "fxdiv0-and-mod0"
  (pass-if "simple"
    (call-with-values (lambda () (fxdiv0-and-mod0 -123 10))
      (lambda (d m)
	(and (fx=? d -12) (fx=? m -3))))))

(with-test-prefix "fxdiv0" (pass-if "simple" (fx=? (fxdiv0 -123 10) -12)))
(with-test-prefix "fxmod0" (pass-if "simple" (fx=? (fxmod0 -123 10) -3)))


;; Without working div and mod implementations and without any example results
;; from the spec, I have no idea what the results of these functions should
;; be.  -juliang
;; UPDATE: div and mod implementations are now working properly  -mhw

(with-test-prefix "fx+/carry" (pass-if "simple" (throw 'unresolved)))

(with-test-prefix "fx-/carry" (pass-if "simple" (throw 'unresolved)))

(with-test-prefix "fx*/carry" (pass-if "simple" (throw 'unresolved)))

(with-test-prefix "fxnot" (pass-if "simple" (fx=? (fxnot 3) -4)))    

(with-test-prefix "fxand" (pass-if "simple" (fx=? (fxand 5 6) 4)))

(with-test-prefix "fxior" (pass-if "simple" (fx=? (fxior 2 4) 6)))

(with-test-prefix "fxxor" (pass-if "simple" (fx=? (fxxor 5 4) 1)))

(with-test-prefix "fxif" (pass-if "simple" (fx=? (fxif 5 3 4) 1)))

(with-test-prefix "fxbit-count"
  (pass-if "simple" (fx=? (fxbit-count 5) 2))
  (pass-if "negative" (fx=? (fxbit-count -5) -2)))

(with-test-prefix "fxlength" (pass-if "simple" (fx=? (fxlength 5) 3)))

(with-test-prefix "fxfirst-bit-set"
  (pass-if "simple"
    (and (eqv? (fxfirst-bit-set 1) 0)
         (eqv? (fxfirst-bit-set -4) 2)))

  (pass-if "fxfirst-bit-set is -1 on zero"
    (and (eqv? (fxfirst-bit-set 0) -1))))

(with-test-prefix "fxbit-set?"
  (pass-if "fxbit-set? is #t on index of set bit" (fxbit-set? 5 2))

  (pass-if "fxbit-set? is #f on index of unset bit" (not (fxbit-set? 5 1))))

(with-test-prefix "fxcopy-bit" (pass-if "simple" (fx=? (fxcopy-bit 2 2 1) 6)))

(with-test-prefix "fxbit-field" 
  (pass-if "simple" (fx=? (fxbit-field 50 1 4) 1)))

(with-test-prefix "fxcopy-bit-field" 
  (pass-if "simple" (fx=? (fxcopy-bit-field 255 2 6 10) 235)))

(with-test-prefix "fxarithmetic-shift"
  (pass-if "simple"
    (and (fx=? (fxarithmetic-shift -6 -1) -3)
         (fx=? (fxarithmetic-shift -5 -1) -3)
	 (fx=? (fxarithmetic-shift -4 -1) -2)
	 (fx=? (fxarithmetic-shift -3 -1) -2)
	 (fx=? (fxarithmetic-shift -2 -1) -1)
	 (fx=? (fxarithmetic-shift -1 -1) -1))))

(with-test-prefix "fxarithmetic-shift-left"
  (pass-if "simple" (fx=? (fxarithmetic-shift-left -6 1) -12)))

(with-test-prefix "fxarithmetic-shift-right"
  (pass-if "simple" (fx=? (fxarithmetic-shift-right -6 1) -3)))

(with-test-prefix "fxrotate-bit-field"
  (pass-if "simple" (fx=? (fxrotate-bit-field 227 2 6 2) 203)))

(with-test-prefix "fxreverse-bit-field"
  (pass-if "simple" (fx=? (fxreverse-bit-field 82 1 4) 88)))