1 ;;;; predicate functions (EQUAL and friends, and type predicates)
3 ;;;; This software is part of the SBCL system. See the README file for
6 ;;;; This software is derived from the CMU CL system, which was
7 ;;;; written at Carnegie Mellon University and released into the
8 ;;;; public domain. The software is in the public domain and is
9 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
10 ;;;; files for more information.
12 (in-package "SB!IMPL")
14 ;;;; miscellaneous non-primitive predicates
16 #!-sb-fluid (declaim (inline streamp))
17 (defun streamp (stream)
18 (typep stream 'stream))
20 ;;; Is X a (VECTOR T)?
22 (or (simple-vector-p x)
23 (and (complex-vector-p x)
24 (simple-vector-p (%array-data-vector x)))))
26 ;;;; primitive predicates. These must be supported directly by the
31 "Return T if X is NIL, otherwise return NIL."
34 ;;; All the primitive type predicate wrappers share a parallel form..
35 (macrolet ((def-type-predicate-wrapper (pred)
36 (let* ((name (symbol-name pred))
37 (stem (string-left-trim "%" (string-right-trim "P-" name)))
38 (article (if (position (schar name 0) "AEIOU") "an" "a")))
39 `(defun ,pred (object)
41 "Return true if OBJECT is ~A ~A, and NIL otherwise."
44 ;; (falling through to low-level implementation)
46 (def-type-predicate-wrapper array-header-p)
47 (def-type-predicate-wrapper arrayp)
48 (def-type-predicate-wrapper atom)
49 (def-type-predicate-wrapper base-char-p)
50 (def-type-predicate-wrapper bignump)
51 (def-type-predicate-wrapper bit-vector-p)
52 (def-type-predicate-wrapper characterp)
53 (def-type-predicate-wrapper code-component-p)
54 (def-type-predicate-wrapper consp)
55 (def-type-predicate-wrapper compiled-function-p)
56 (def-type-predicate-wrapper complexp)
57 (def-type-predicate-wrapper complex-double-float-p)
58 (def-type-predicate-wrapper complex-float-p)
59 #!+long-float (def-type-predicate-wrapper complex-long-float-p)
60 (def-type-predicate-wrapper complex-rational-p)
61 (def-type-predicate-wrapper complex-single-float-p)
62 ;; (COMPLEX-VECTOR-P is not included here since it's awkward to express
63 ;; the type it tests for in the Common Lisp type system, and since it's
64 ;; only used in the implementation of a few specialized things.)
65 (def-type-predicate-wrapper double-float-p)
66 (def-type-predicate-wrapper fdefn-p)
67 (def-type-predicate-wrapper fixnump)
68 (def-type-predicate-wrapper floatp)
69 (def-type-predicate-wrapper functionp)
70 (def-type-predicate-wrapper integerp)
71 (def-type-predicate-wrapper listp)
72 (def-type-predicate-wrapper long-float-p)
73 (def-type-predicate-wrapper lra-p)
74 (def-type-predicate-wrapper null)
75 (def-type-predicate-wrapper numberp)
76 (def-type-predicate-wrapper rationalp)
77 (def-type-predicate-wrapper ratiop)
78 (def-type-predicate-wrapper realp)
79 (def-type-predicate-wrapper short-float-p)
80 (def-type-predicate-wrapper sb!kernel:simple-array-p)
81 (def-type-predicate-wrapper simple-bit-vector-p)
82 (def-type-predicate-wrapper simple-string-p)
83 (def-type-predicate-wrapper simple-vector-p)
84 (def-type-predicate-wrapper single-float-p)
85 (def-type-predicate-wrapper stringp)
86 (def-type-predicate-wrapper %instancep)
87 (def-type-predicate-wrapper symbolp)
88 (def-type-predicate-wrapper system-area-pointer-p)
89 (def-type-predicate-wrapper weak-pointer-p)
90 (def-type-predicate-wrapper vectorp)
91 (def-type-predicate-wrapper unsigned-byte-32-p)
92 (def-type-predicate-wrapper signed-byte-32-p)
93 (def-type-predicate-wrapper simple-array-unsigned-byte-2-p)
94 (def-type-predicate-wrapper simple-array-unsigned-byte-4-p)
95 (def-type-predicate-wrapper simple-array-unsigned-byte-8-p)
96 (def-type-predicate-wrapper simple-array-unsigned-byte-16-p)
97 (def-type-predicate-wrapper simple-array-unsigned-byte-32-p)
98 (def-type-predicate-wrapper simple-array-signed-byte-8-p)
99 (def-type-predicate-wrapper simple-array-signed-byte-16-p)
100 (def-type-predicate-wrapper simple-array-signed-byte-30-p)
101 (def-type-predicate-wrapper simple-array-signed-byte-32-p)
102 (def-type-predicate-wrapper simple-array-single-float-p)
103 (def-type-predicate-wrapper simple-array-double-float-p)
104 #!+long-float (def-type-predicate-wrapper simple-array-long-float-p)
105 (def-type-predicate-wrapper simple-array-complex-single-float-p)
106 (def-type-predicate-wrapper simple-array-complex-double-float-p)
107 #!+long-float (def-type-predicate-wrapper simple-array-complex-long-float-p))
109 ;;; Return the specifier for the type of object. This is not simply
110 ;;; (TYPE-SPECIFIER (CTYPE-OF OBJECT)) because CTYPE-OF has different
111 ;;; goals than TYPE-OF. In particular, speed is more important than
112 ;;; precision, and it is not permitted to return member types.
113 (defun type-of (object)
115 "Return the type of OBJECT."
116 (if (typep object '(or function array complex))
117 (type-specifier (ctype-of object))
118 (let* ((classoid (layout-classoid (layout-of object)))
119 (name (classoid-name classoid)))
120 (if (typep object 'instance)
122 (sb!alien-internals:alien-value
124 ,(sb!alien-internals:unparse-alien-type
125 (sb!alien-internals:alien-value-type object))))
127 (classoid-proper-name classoid)))
130 ;;;; equality predicates
132 ;;; This is real simple, 'cause the compiler takes care of it.
133 (defun eq (obj1 obj2)
135 "Return T if OBJ1 and OBJ2 are the same object, otherwise NIL."
138 (defun bit-vector-= (x y)
139 (declare (type bit-vector x y))
140 (if (and (simple-bit-vector-p x)
141 (simple-bit-vector-p y))
142 (bit-vector-= x y) ; DEFTRANSFORM
143 (and (= (length x) (length y))
148 (unless (= (bit x i) (bit y i))
153 "Return T if X and Y are EQL or if they are structured components
154 whose elements are EQUAL. Strings and bit-vectors are EQUAL if they
155 are the same length and have identical components. Other arrays must be
160 (equal (car x) (car y))
161 (equal (cdr x) (cdr y))))
163 (and (stringp y) (string= x y)))
165 (and (pathnamep y) (pathname= x y)))
167 (and (bit-vector-p y)
171 ;;; EQUALP comparison of HASH-TABLE values
172 (defun hash-table-equalp (x y)
173 (declare (type hash-table x y))
175 (and (hash-table-p y)
176 (eql (hash-table-count x) (hash-table-count y))
177 (eql (hash-table-test x) (hash-table-test y))
178 (block comparison-of-entries
179 (maphash (lambda (key x-value)
180 (multiple-value-bind (y-value y-value-p)
182 (unless (and y-value-p (equalp x-value y-value))
183 (return-from comparison-of-entries nil))))
188 #+nil ; KLUDGE: If doc string, should be accurate: Talk about structures
190 "This is like EQUAL, except more liberal in several respects.
191 Numbers may be of different types, as long as the values are identical
192 after coercion. Characters may differ in alphabetic case. Vectors and
193 arrays must have identical dimensions and EQUALP elements, but may differ
194 in their type restriction."
196 ((characterp x) (and (characterp y) (char-equal x y)))
197 ((numberp x) (and (numberp y) (= x y)))
200 (equalp (car x) (car y))
201 (equalp (cdr x) (cdr y))))
203 (and (pathnamep y) (pathname= x y)))
205 (and (hash-table-p y)
206 (hash-table-equalp x y)))
208 (let* ((layout-x (%instance-layout x))
209 (len (layout-length layout-x)))
210 (and (typep y 'instance)
211 (eq layout-x (%instance-layout y))
212 (structure-classoid-p (layout-classoid layout-x))
216 (let ((x-el (%instance-ref x i))
217 (y-el (%instance-ref y i)))
218 (unless (or (eq x-el y-el)
222 (let ((length (length x)))
224 (= length (length y))
225 (dotimes (i length t)
226 (let ((x-el (aref x i))
228 (unless (or (eq x-el y-el)
233 (= (array-rank x) (array-rank y))
234 (dotimes (axis (array-rank x) t)
235 (unless (= (array-dimension x axis)
236 (array-dimension y axis))
238 (dotimes (index (array-total-size x) t)
239 (let ((x-el (row-major-aref x index))
240 (y-el (row-major-aref y index)))
241 (unless (or (eq x-el y-el)
246 (/show0 "about to do test cases in pred.lisp")
248 (let ((test-cases '((0.0 -0.0 t)
250 (#c(1 0) #c(1.0 0) t)
251 (#c(1.1 0) #c(11/10 0) nil) ; due to roundoff error
253 ("Hello" #(#\h #\E #\l #\l #\o) t)
254 ("Hello" "goodbye" nil))))
255 (/show0 "TEST-CASES bound in pred.lisp")
256 (dolist (test-case test-cases)
257 (/show0 "about to do a TEST-CASE in pred.lisp")
258 (destructuring-bind (x y expected-result) test-case
259 (let* ((result (equalp x y))
260 (bresult (if result 1 0))
261 (expected-bresult (if expected-result 1 0)))
262 (unless (= bresult expected-bresult)
263 (/show0 "failing test in pred.lisp")
264 (error "failed test (EQUALP ~S ~S)" x y))))))
265 (/show0 "done with test cases in pred.lisp")