1 ;;;; This software is part of the SBCL system. See the README file for
4 ;;;; This software is derived from software originally released by Xerox
5 ;;;; Corporation. Copyright and release statements follow. Later modifications
6 ;;;; to the software are in the public domain and are provided with
7 ;;;; absolutely no warranty. See the COPYING and CREDITS files for more
10 ;;;; copyright information from original PCL sources:
12 ;;;; Copyright (c) 1985, 1986, 1987, 1988, 1989, 1990 Xerox Corporation.
13 ;;;; All rights reserved.
15 ;;;; Use and copying of this software and preparation of derivative works based
16 ;;;; upon this software are permitted. Any distribution of this software or
17 ;;;; derivative works must comply with all applicable United States export
20 ;;;; This software is made available AS IS, and Xerox Corporation makes no
21 ;;;; warranty about the software, its performance or its conformity to any
26 ;;; GET-FUN is the main user interface to this code. It is like
27 ;;; COMPILE, only more efficient. It achieves this efficiency by
28 ;;; reducing the number of times that the compiler needs to be called.
29 ;;; Calls to GET-FUN in which the lambda forms differ only by
30 ;;; constants can use the same piece of compiled code. (For example,
31 ;;; dispatch dfuns and combined method functions can often be shared,
32 ;;; if they differ only by referring to different methods.)
34 ;;; If GET-FUN is called with a lambda expression only, it will return
35 ;;; a corresponding function. The optional constant-converter argument
36 ;;; can be a function which will be called to convert each constant appearing
37 ;;; in the lambda to whatever value should appear in the function.
39 ;;; There are three internal functions which operate on the lambda argument
41 ;;; COMPUTE-TEST converts the lambda into a key to be used for lookup,
42 ;;; COMPUTE-CODE is used by GET-NEW-FUN-GENERATOR-INTERNAL to
43 ;;; generate the actual lambda to be compiled, and
44 ;;; COMPUTE-CONSTANTS is used to generate the argument list that is
45 ;;; to be passed to the compiled function.
47 (defun get-fun (lambda &optional
48 (test-converter #'default-test-converter)
49 (code-converter #'default-code-converter)
50 (constant-converter #'default-constant-converter))
51 (function-apply (get-fun-generator lambda test-converter code-converter)
52 (compute-constants lambda constant-converter)))
54 (defun get-fun1 (lambda &optional
55 (test-converter #'default-test-converter)
56 (code-converter #'default-code-converter)
57 (constant-converter #'default-constant-converter))
59 (get-fun-generator lambda test-converter code-converter))
60 (compute-constants lambda constant-converter)))
62 (defun default-constantp (form)
64 (not (typep (eval form) '(or symbol fixnum)))))
66 (defun default-test-converter (form)
67 (if (default-constantp form)
71 (defun default-code-converter (form)
72 (if (default-constantp form)
73 (let ((gensym (gensym))) (values gensym (list gensym)))
76 (defun default-constant-converter (form)
77 (if (default-constantp form)
81 ;;; *FGENS* is a list of all the function generators we have so far. Each
82 ;;; element is a FGEN structure as implemented below. Don't ever touch this
83 ;;; list by hand, use STORE-FGEN.
86 (defun store-fgen (fgen)
87 (let ((old (lookup-fgen (fgen-test fgen))))
89 (setf (svref old 2) (fgen-generator fgen)
90 (svref old 4) (or (svref old 4)
92 (setq *fgens* (nconc *fgens* (list fgen))))))
94 (defun lookup-fgen (test)
95 (find test (the list *fgens*) :key #'fgen-test :test #'equal))
97 (defun make-fgen (test gensyms generator generator-lambda system)
98 (let ((new (make-array 6)))
99 (setf (svref new 0) test
100 (svref new 1) gensyms
101 (svref new 2) generator
102 (svref new 3) generator-lambda
103 (svref new 4) system)
106 (defun fgen-test (fgen) (svref fgen 0))
107 (defun fgen-gensyms (fgen) (svref fgen 1))
108 (defun fgen-generator (fgen) (svref fgen 2))
109 (defun fgen-generator-lambda (fgen) (svref fgen 3))
110 (defun fgen-system (fgen) (svref fgen 4))
112 (defun get-fun-generator (lambda test-converter code-converter)
113 (let* ((test (compute-test lambda test-converter))
114 (fgen (lookup-fgen test)))
116 (fgen-generator fgen)
117 (get-new-fun-generator lambda test code-converter))))
119 (defun get-new-fun-generator (lambda test code-converter)
120 (multiple-value-bind (gensyms generator-lambda)
121 (get-new-fun-generator-internal lambda code-converter)
122 (let* ((generator (compile nil generator-lambda))
123 (fgen (make-fgen test gensyms generator generator-lambda nil)))
127 (defun get-new-fun-generator-internal (lambda code-converter)
128 (multiple-value-bind (code gensyms)
129 (compute-code lambda code-converter)
130 (values gensyms `(lambda ,gensyms (function ,code)))))
132 (defun compute-test (lambda test-converter)
133 (let ((*walk-form-expand-macros-p* t))
140 (let ((converted (funcall test-converter f)))
141 (values converted (neq converted f))))))))
143 (defun compute-code (lambda code-converter)
144 (let ((*walk-form-expand-macros-p* t)
146 (values (walk-form lambda
152 (multiple-value-bind (converted gens)
153 (funcall code-converter f)
154 (when gens (setq gensyms (append gensyms gens)))
155 (values converted (neq converted f))))))
158 (defun compute-constants (lambda constant-converter)
159 (let ((*walk-form-expand-macros-p* t) ; doesn't matter here.
167 (let ((consts (funcall constant-converter f)))
170 (setq collect (append collect consts))
175 (defmacro precompile-function-generators (&optional system)
178 (dolist (fgen *fgens*)
179 (when (or (null (fgen-system fgen))
180 (eq (fgen-system fgen) system))
181 (when system (setf (svref fgen 4) system))
182 (push `(load-function-generator
184 ',(fgen-gensyms fgen)
185 (function ,(fgen-generator-lambda fgen))
186 ',(fgen-generator-lambda fgen)
189 (nreverse collect))))
191 (defun load-function-generator (test gensyms generator generator-lambda system)
192 (store-fgen (make-fgen test gensyms generator generator-lambda system)))
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