;; Evaluate X and Y to integers, and apply INTOP to the
;; results, giving another integer.
(oplambda
- (values :int (funcall intop (want :int x) (want :int y))))))
+ (values :int (funcall intop (want :int x) (want :int y)))))
+
+ (compareop (intop strop x y)
+ ;; Evaluate X and Y. If they're integers, then apply INTOP to
+ ;; them; if they're strings, apply STROP. The result is a
+ ;; boolean.
+ (oplambda
+ (multiple-value-bind (xty xval) (funcall x)
+ (case xty
+ (:int
+ (values :boolean
+ (funcall intop xval (want :int y))))
+ ((:id :string :symbol)
+ (values :boolean
+ (funcall strop
+ (coerce-property-value xval xty :id)
+ (want :id y))))
+ (t
+ (error "Can't compare objects of type ~(~A~)" xty)))))))
(with-parser-context (token-scanner-context :scanner scanner)
(when-parse ()
(when (zerop y) (error "Division by zero"))
(values :int (floor x y)))))
(:op #\+ binop "+" (x y 60) (int-binop #'+ x y))
- (:op #\- binop "-" (x y 60) (int-binop #'- x y)))
+ (:op #\- binop "-" (x y 60) (int-binop #'- x y))
+ (:op :shl binop "<<" (x y 50) (int-binop #'ash x y))
+ (:op :shr binop ">>" (x y 50)
+ (int-binop (lambda (x y) (ash x (- y))) x y))
+ (:op #\< binop "<" (x y 45)
+ (compareop #'< #'string< x y))
+ (:op :le binop "<=" (x y 45)
+ (compareop #'<= #'string<= x y))
+ (:op :ge binop ">=" (x y 45)
+ (compareop #'>= #'string>= x y))
+ (:op #\> binop ">" (x y 45)
+ (compareop #'> #'string> x y))
+ (:op :eq binop "==" (x y 40)
+ (compareop #'= #'string= x y))
+ (:op :ne binop "!=" (x y 40)
+ (compareop #'/= #'string/= x y))
+ (:op #\& binop "&" (x y 37) (int-binop #'logand x y))
+ (:op #\^ binop "^" (x y 35) (int-binop #'logxor x y))
+ (:op #\| binop "|" (x y 32) (int-binop #'logior x y))
+ (:op :and binop "&&" (x y 27)
+ (oplambda (if (want :boolean x) (funcall y)
+ (values :boolean nil))))
+ (:op :or binop "||" (x y 22)
+ (oplambda
+ (multiple-value-bind (xty xval) (funcall x)
+ (if (coerce-property-value xval xty :boolean)
+ (values xty xval)
+ (funcall y))))))
;; Prefix operators.
- ((:op #\+ preop "+" (x 90) (int-unop #'identity x))
+ ((:op #\~ preop "~" (x 90) (int-unop #'lognot x))
+ (:op #\! preop "!" (x 90)
+ (oplambda
+ (values :boolean
+ (not (want :boolean (funcall x))))))
+ (:op #\+ preop "+" (x 90) (int-unop #'identity x))
(:op #\- preop "-" (x 90) (int-unop #'- x))
(:op #\( lparen #\)))