;;;
;;; We special-case NULL, since it does have a source tranform and is
;;; interesting to us.
-(defun function-cost (name)
+(defun fun-guessed-cost (name)
(declare (symbol name))
(let ((info (info :function :info name))
(call-cost (template-cost (template-or-lose 'call-named))))
(if info
- (let ((templates (function-info-templates info)))
+ (let ((templates (fun-info-templates info)))
(if templates
(template-cost (first templates))
(case name
(let ((found (cdr (assoc type *backend-type-predicates*
:test #'type=))))
(if found
- (+ (function-cost found) (function-cost 'eq))
+ (+ (fun-guessed-cost found) (fun-guessed-cost 'eq))
nil))))
(typecase type
(compound-type
(reduce #'+ (compound-type-types type) :key 'type-test-cost))
(member-type
(* (length (member-type-members type))
- (function-cost 'eq)))
+ (fun-guessed-cost 'eq)))
(numeric-type
(* (if (numeric-type-complexp type) 2 1)
- (function-cost
+ (fun-guessed-cost
(if (csubtypep type (specifier-type 'fixnum)) 'fixnump 'numberp))
(+ 1
(if (numeric-type-low type) 1 0)
(if (numeric-type-high type) 1 0))))
(cons-type
(+ (type-test-cost (specifier-type 'cons))
- (function-cost 'car)
+ (fun-guessed-cost 'car)
(type-test-cost (cons-type-car-type type))
- (function-cost 'cdr)
+ (fun-guessed-cost 'cdr)
(type-test-cost (cons-type-cdr-type type))))
(t
- (function-cost 'typep)))))
+ (fun-guessed-cost 'typep)))))
\f
;;;; checking strategy determination
min-type
*universal-type*)))))
-;;; Like VALUES-TYPES, only mash any complex function types to FUNCTION.
-(defun no-function-values-types (type)
+;;; This is like VALUES-TYPES, only we mash any complex function types
+;;; to FUNCTION.
+(defun no-fun-values-types (type)
(declare (type ctype type))
(multiple-value-bind (res count) (values-types type)
(values (mapcar (lambda (type)
(defun maybe-negate-check (cont types force-hairy)
(declare (type continuation cont) (list types))
(multiple-value-bind (ptypes count)
- (no-function-values-types (continuation-proven-type cont))
+ (no-fun-values-types (continuation-proven-type cont))
(if (eq count :unknown)
(if (and (every #'type-check-template types) (not force-hairy))
(values :simple types)
(let ((type (continuation-asserted-type cont))
(dest (continuation-dest cont)))
(aver (not (eq type *wild-type*)))
- (multiple-value-bind (types count) (no-function-values-types type)
+ (multiple-value-bind (types count) (no-fun-values-types type)
(cond ((not (eq count :unknown))
(if (or (exit-p dest)
(and (return-p dest)
(cond ((eq cont (basic-combination-fun dest)) t)
((eq kind :local) t)
((member kind '(:full :error)) nil)
- ((function-info-ir2-convert kind) t)
+ ((fun-info-ir2-convert kind) t)
(t
- (dolist (template (function-info-templates kind) nil)
+ (dolist (template (fun-info-templates kind) nil)
(when (eq (template-ltn-policy template) :fast-safe)
(multiple-value-bind (val win)
- (valid-function-use dest (template-type template))
+ (valid-fun-use dest (template-type template))
(when (or val (not win)) (return t)))))))))
(t t))))
;;; context. If the value is a constant, we print it specially. We
;;; ignore nodes whose type is NIL, since they are supposed to never
;;; return.
-(defun do-type-warning (node)
+(defun emit-type-warning (node)
(declare (type node node))
(let* ((*compiler-error-context* node)
(cont (node-cont node))
pos)))))))
(cond ((eq dtype *empty-type*))
((and (ref-p node) (constant-p (ref-leaf node)))
- (compiler-warning "~:[This~;~:*~A~] is not a ~<~%~9T~:;~S:~>~% ~S"
- what atype-spec (constant-value (ref-leaf node))))
+ (compiler-warn "~:[This~;~:*~A~] is not a ~<~%~9T~:;~S:~>~% ~S"
+ what atype-spec (constant-value (ref-leaf node))))
(t
- (compiler-warning
+ (compiler-warn
"~:[Result~;~:*~A~] is a ~S, ~<~%~9T~:;not a ~S.~>"
what (type-specifier dtype) atype-spec))))
(values))
;;; Mark CONT as being a continuation with a manifest type error. We
-;;; set the kind to :ERROR, and clear any FUNCTION-INFO if the
+;;; set the kind to :ERROR, and clear any FUN-INFO if the
;;; continuation is an argument to a known call. The last is done so
;;; that the back end doesn't have to worry about type errors in
;;; arguments to known functions. This clearing is inhibited for
(when (and (combination-p dest)
(let ((kind (basic-combination-kind dest)))
(or (eq kind :full)
- (and (function-info-p kind)
- (not (function-info-ir2-convert kind))))))
+ (and (fun-info-p kind)
+ (not (fun-info-ir2-convert kind))))))
(setf (basic-combination-kind dest) :error)))
(values))
(node-derived-type use) atype)
(mark-error-continuation cont)
(unless (policy node (= inhibit-warnings 3))
- (do-type-warning use))))))
+ (emit-type-warning use))))))
(when (eq type-check t)
(cond ((probable-type-check-p cont)
(conts cont))