X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=src%2Fcompiler%2Fsrctran.lisp;h=1bcfb8f5ca71e2d0548f16268e3c1b68ab295816;hb=80304981972c91c1b3f3fca75f36dacf1fecf307;hp=e7bae1b0e108f078fb6c91291aa7f95a135c606c;hpb=4ad052044a22f502d9dc6faf6dfe01f3bab84262;p=sbcl.git diff --git a/src/compiler/srctran.lisp b/src/compiler/srctran.lisp index e7bae1b..1bcfb8f 100644 --- a/src/compiler/srctran.lisp +++ b/src/compiler/srctran.lisp @@ -2298,8 +2298,8 @@ (defoptimizer (values derive-type) ((&rest values)) (values-specifier-type - `(values ,@(mapcar #'(lambda (x) - (type-specifier (continuation-type x))) + `(values ,@(mapcar (lambda (x) + (type-specifier (continuation-type x))) values)))) ;;;; byte operations @@ -2666,7 +2666,7 @@ ;;; Flush calls to various arith functions that convert to the ;;; identity function or a constant. (macrolet ((def-frob (name identity result) - `(deftransform ,name ((x y) (* (constant-argument (member ,identity))) + `(deftransform ,name ((x y) (* (constant-arg (member ,identity))) * :when :both) "fold identity operations" ',result))) @@ -2680,11 +2680,11 @@ ;;; These are restricted to rationals, because (- 0 0.0) is 0.0, not -0.0, and ;;; (* 0 -4.0) is -0.0. -(deftransform - ((x y) ((constant-argument (member 0)) rational) * +(deftransform - ((x y) ((constant-arg (member 0)) rational) * :when :both) "convert (- 0 x) to negate" '(%negate y)) -(deftransform * ((x y) (rational (constant-argument (member 0))) * +(deftransform * ((x y) (rational (constant-arg (member 0))) * :when :both) "convert (* x 0) to 0" 0) @@ -2727,7 +2727,7 @@ ;;; ;;; If y is not constant, not zerop, or is contagious, or a positive ;;; float +0.0 then give up. -(deftransform + ((x y) (t (constant-argument t)) * :when :both) +(deftransform + ((x y) (t (constant-arg t)) * :when :both) "fold zero arg" (let ((val (continuation-value y))) (unless (and (zerop val) @@ -2740,7 +2740,7 @@ ;;; ;;; If y is not constant, not zerop, or is contagious, or a negative ;;; float -0.0 then give up. -(deftransform - ((x y) (t (constant-argument t)) * :when :both) +(deftransform - ((x y) (t (constant-arg t)) * :when :both) "fold zero arg" (let ((val (continuation-value y))) (unless (and (zerop val) @@ -2751,7 +2751,7 @@ ;;; Fold (OP x +/-1) (macrolet ((def-frob (name result minus-result) - `(deftransform ,name ((x y) (t (constant-argument real)) + `(deftransform ,name ((x y) (t (constant-arg real)) * :when :both) "fold identity operations" (let ((val (continuation-value y))) @@ -2765,7 +2765,7 @@ ;;; Fold (expt x n) into multiplications for small integral values of ;;; N; convert (expt x 1/2) to sqrt. -(deftransform expt ((x y) (t (constant-argument real)) *) +(deftransform expt ((x y) (t (constant-arg real)) *) "recode as multiplication or sqrt" (let ((val (continuation-value y))) ;; If Y would cause the result to be promoted to the same type as @@ -2788,7 +2788,7 @@ ;;; Perhaps we should have to prove that the denominator is nonzero before ;;; doing them? -- WHN 19990917 (macrolet ((def-frob (name) - `(deftransform ,name ((x y) ((constant-argument (integer 0 0)) integer) + `(deftransform ,name ((x y) ((constant-arg (integer 0 0)) integer) * :when :both) "fold zero arg" 0))) @@ -2796,7 +2796,7 @@ (def-frob /)) (macrolet ((def-frob (name) - `(deftransform ,name ((x y) ((constant-argument (integer 0 0)) integer) + `(deftransform ,name ((x y) ((constant-arg (integer 0 0)) integer) * :when :both) "fold zero arg" '(values 0 0)))) @@ -3192,8 +3192,8 @@ (define-source-transform apply (fun arg &rest more-args) (let ((args (cons arg more-args))) `(multiple-value-call ,fun - ,@(mapcar #'(lambda (x) - `(values ,x)) + ,@(mapcar (lambda (x) + `(values ,x)) (butlast args)) (values-list ,(car (last args))))))