X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=src%2Fcode%2Firrat.lisp;h=12751a30aff3df97346a369706c77c75d4d55a4f;hb=6f522e6cea478e313535db38c6b31c70dc24561e;hp=65c96f152a6ebb8277b7ac799f0747791eb0e60d;hpb=9dcd91eba92f6f2db9ae65d7640f2cd2f4ee2a8b;p=sbcl.git diff --git a/src/code/irrat.lisp b/src/code/irrat.lisp index 65c96f1..12751a3 100644 --- a/src/code/irrat.lisp +++ b/src/code/irrat.lisp @@ -70,20 +70,32 @@ #!-x86 (def-math-rtn "sin" 1) #!-x86 (def-math-rtn "cos" 1) #!-x86 (def-math-rtn "tan" 1) -(def-math-rtn "asin" 1) -(def-math-rtn "acos" 1) #!-x86 (def-math-rtn "atan" 1) #!-x86 (def-math-rtn "atan2" 2) -(def-math-rtn "sinh" 1) -(def-math-rtn "cosh" 1) #!-win32 (progn + (def-math-rtn "acos" 1) + (def-math-rtn "asin" 1) + (def-math-rtn "cosh" 1) + (def-math-rtn "sinh" 1) (def-math-rtn "tanh" 1) (def-math-rtn "asinh" 1) (def-math-rtn "acosh" 1) (def-math-rtn "atanh" 1)) #!+win32 (progn + (declaim (inline %asin)) + (defun %asin (number) + (%atan (/ number (sqrt (- 1 (* number number)))))) + (declaim (inline %acos)) + (defun %acos (number) + (- (/ pi 2) (%asin number))) + (declaim (inline %cosh)) + (defun %cosh (number) + (/ (+ (exp number) (exp (- number))) 2)) + (declaim (inline %sinh)) + (defun %sinh (number) + (/ (- (exp number) (exp (- number))) 2)) (declaim (inline %tanh)) (defun %tanh (number) (/ (%sinh number) (%cosh number))) @@ -107,8 +119,16 @@ #!-x86 (def-math-rtn "log10" 1) #!-win32(def-math-rtn "pow" 2) #!-(or x86 x86-64) (def-math-rtn "sqrt" 1) -(def-math-rtn "hypot" 2) +#!-win32 (def-math-rtn "hypot" 2) #!-(or hpux x86) (def-math-rtn "log1p" 1) + +#!+win32 +(progn + ;; FIXME: libc hypot "computes the sqrt(x*x+y*y) without undue overflow or underflow" + ;; ...we just do the stupid simple thing. + (declaim (inline %hypot)) + (defun %hypot (x y) + (sqrt (+ (* x x) (* y y))))) ;;;; power functions @@ -335,11 +355,20 @@ "Return the logarithm of NUMBER in the base BASE, which defaults to e." (if base-p (cond - ((zerop base) 0f0) ; FIXME: type + ((zerop base) + (if (or (typep number 'double-float) (typep base 'double-float)) + 0.0d0 + 0.0f0)) ((and (typep number '(integer (0) *)) (typep base '(integer (0) *))) (coerce (/ (log2 number) (log2 base)) 'single-float)) - (t (/ (log number) (log base)))) + ((and (typep number 'integer) (typep base 'double-float)) + ;; No single float intermediate result + (/ (log2 number) (log base 2.0d0))) + ((and (typep number 'double-float) (typep base 'integer)) + (/ (log number 2.0d0) (log2 base))) + (t + (/ (log number) (log base)))) (number-dispatch ((number number)) (((foreach fixnum bignum)) (if (minusp number)