X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=src%2Fpcl%2Ffngen.lisp;h=0017ce04065fdefdf17696e526dc79524e2d91ac;hb=a4640afb239d4de3e348430fd9903fc3a88b9139;hp=3631cb513fb31ca6148cf170d2f48d32e31e79da;hpb=e8b69b1dd5564a4237b1bdc1060820c3b820cde2;p=sbcl.git diff --git a/src/pcl/fngen.lisp b/src/pcl/fngen.lisp index 3631cb5..0017ce0 100644 --- a/src/pcl/fngen.lisp +++ b/src/pcl/fngen.lisp @@ -23,40 +23,41 @@ (in-package "SB-PCL") -;;; GET-FUNCTION is the main user interface to this code. It is like +;;; GET-FUN is the main user interface to this code. It is like ;;; COMPILE, only more efficient. It achieves this efficiency by ;;; reducing the number of times that the compiler needs to be called. -;;; Calls to GET-FUNCTION in which the lambda forms differ only by constants -;;; can use the same piece of compiled code. (For example, dispatch dfuns and -;;; combined method functions can often be shared, if they differ only -;;; by referring to different methods.) +;;; Calls to GET-FUN in which the lambda forms differ only by +;;; constants can use the same piece of compiled code. (For example, +;;; dispatch dfuns and combined method functions can often be shared, +;;; if they differ only by referring to different methods.) ;;; -;;; If GET-FUNCTION is called with a lambda expression only, it will return +;;; If GET-FUN is called with a lambda expression only, it will return ;;; a corresponding function. The optional constant-converter argument ;;; can be a function which will be called to convert each constant appearing ;;; in the lambda to whatever value should appear in the function. ;;; ;;; There are three internal functions which operate on the lambda argument -;;; to GET-FUNCTION: -;;; compute-test converts the lambda into a key to be used for lookup, -;;; compute-code is used by get-new-fun-generator-internal to -;;; generate the actual lambda to be compiled, and -;;; compute-constants is used to generate the argument list that is -;;; to be passed to the compiled function. +;;; to GET-FUN: +;;; COMPUTE-TEST converts the lambda into a key to be used for lookup, +;;; COMPUTE-CODE is used by GET-NEW-FUN-GENERATOR-INTERNAL to +;;; generate the actual lambda to be compiled, and +;;; COMPUTE-CONSTANTS is used to generate the argument list that is +;;; to be passed to the compiled function. ;;; -(defun get-function (lambda - &optional (test-converter #'default-test-converter) - (code-converter #'default-code-converter) - (constant-converter #'default-constant-converter)) - (function-apply (get-function-generator lambda test-converter code-converter) - (compute-constants lambda constant-converter))) - -(defun get-function1 (lambda - &optional (test-converter #'default-test-converter) - (code-converter #'default-code-converter) - (constant-converter #'default-constant-converter)) - (values (the function (get-function-generator lambda test-converter code-converter)) - (compute-constants lambda constant-converter))) +(defun get-fun (lambda &optional + (test-converter #'default-test-converter) + (code-converter #'default-code-converter) + (constant-converter #'default-constant-converter)) + (function-apply (get-fun-generator lambda test-converter code-converter) + (compute-constants lambda constant-converter))) + +(defun get-fun1 (lambda &optional + (test-converter #'default-test-converter) + (code-converter #'default-code-converter) + (constant-converter #'default-constant-converter)) + (values (the function + (get-fun-generator lambda test-converter code-converter)) + (compute-constants lambda constant-converter))) (defun default-constantp (form) (and (constantp form) @@ -85,10 +86,10 @@ (defun store-fgen (fgen) (let ((old (lookup-fgen (fgen-test fgen)))) (if old - (setf (svref old 2) (fgen-generator fgen) - (svref old 4) (or (svref old 4) - (fgen-system fgen))) - (setq *fgens* (nconc *fgens* (list fgen)))))) + (setf (svref old 2) (fgen-generator fgen) + (svref old 4) (or (svref old 4) + (fgen-system fgen))) + (setq *fgens* (nconc *fgens* (list fgen)))))) (defun lookup-fgen (test) (find test (the list *fgens*) :key #'fgen-test :test #'equal)) @@ -96,30 +97,30 @@ (defun make-fgen (test gensyms generator generator-lambda system) (let ((new (make-array 6))) (setf (svref new 0) test - (svref new 1) gensyms - (svref new 2) generator - (svref new 3) generator-lambda - (svref new 4) system) + (svref new 1) gensyms + (svref new 2) generator + (svref new 3) generator-lambda + (svref new 4) system) new)) -(defun fgen-test (fgen) (svref fgen 0)) -(defun fgen-gensyms (fgen) (svref fgen 1)) -(defun fgen-generator (fgen) (svref fgen 2)) +(defun fgen-test (fgen) (svref fgen 0)) +(defun fgen-gensyms (fgen) (svref fgen 1)) +(defun fgen-generator (fgen) (svref fgen 2)) (defun fgen-generator-lambda (fgen) (svref fgen 3)) -(defun fgen-system (fgen) (svref fgen 4)) +(defun fgen-system (fgen) (svref fgen 4)) -(defun get-function-generator (lambda test-converter code-converter) +(defun get-fun-generator (lambda test-converter code-converter) (let* ((test (compute-test lambda test-converter)) - (fgen (lookup-fgen test))) + (fgen (lookup-fgen test))) (if fgen - (fgen-generator fgen) - (get-new-fun-generator lambda test code-converter)))) + (fgen-generator fgen) + (get-new-fun-generator lambda test code-converter)))) (defun get-new-fun-generator (lambda test code-converter) (multiple-value-bind (gensyms generator-lambda) (get-new-fun-generator-internal lambda code-converter) (let* ((generator (compile nil generator-lambda)) - (fgen (make-fgen test gensyms generator generator-lambda nil))) + (fgen (make-fgen test gensyms generator generator-lambda nil))) (store-fgen fgen) generator))) @@ -131,44 +132,44 @@ (defun compute-test (lambda test-converter) (let ((*walk-form-expand-macros-p* t)) (walk-form lambda - nil - #'(lambda (f c e) - (declare (ignore e)) - (if (neq c :eval) - f - (let ((converted (funcall test-converter f))) - (values converted (neq converted f)))))))) + nil + (lambda (f c e) + (declare (ignore e)) + (if (neq c :eval) + f + (let ((converted (funcall test-converter f))) + (values converted (neq converted f)))))))) (defun compute-code (lambda code-converter) (let ((*walk-form-expand-macros-p* t) - (gensyms ())) + (gensyms ())) (values (walk-form lambda - nil - #'(lambda (f c e) - (declare (ignore e)) - (if (neq c :eval) - f - (multiple-value-bind (converted gens) - (funcall code-converter f) - (when gens (setq gensyms (append gensyms gens))) - (values converted (neq converted f)))))) - gensyms))) + nil + (lambda (f c e) + (declare (ignore e)) + (if (neq c :eval) + f + (multiple-value-bind (converted gens) + (funcall code-converter f) + (when gens (setq gensyms (append gensyms gens))) + (values converted (neq converted f)))))) + gensyms))) (defun compute-constants (lambda constant-converter) (let ((*walk-form-expand-macros-p* t) ; doesn't matter here. collect) (walk-form lambda nil - #'(lambda (f c e) - (declare (ignore e)) - (if (neq c :eval) - f - (let ((consts (funcall constant-converter f))) - (if consts - (progn - (setq collect (nconc collect consts)) - (values f t)) - f))))) + (lambda (f c e) + (declare (ignore e)) + (if (neq c :eval) + f + (let ((consts (funcall constant-converter f))) + (if consts + (progn + (setq collect (append collect consts)) + (values f t)) + f))))) collect)) (defmacro precompile-function-generators (&optional system) @@ -189,4 +190,3 @@ (defun load-function-generator (test gensyms generator generator-lambda system) (store-fgen (make-fgen test gensyms generator generator-lambda system))) -