;;;; various user-level definitions which need to be done particularly ;;;; early ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; This software is derived from the CMU CL system, which was ;;;; written at Carnegie Mellon University and released into the ;;;; public domain. The software is in the public domain and is ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. (in-package "SB!IMPL") ;;;; target constants which need to appear as early as possible ;;; an internal tag for marking empty slots, which needs to be defined ;;; as early as possible because it appears in macroexpansions for ;;; iteration over hash tables ;;; ;;; CMU CL 18b used :EMPTY for this purpose, which was somewhat nasty ;;; since it's easily accessible to the user, so that e.g. ;;; (DEFVAR *HT* (MAKE-HASH-TABLE)) ;;; (SETF (GETHASH :EMPTY *HT*) :EMPTY) ;;; (MAPHASH (LAMBDA (K V) (FORMAT T "~&~S ~S~%" K V))) ;;; gives no output -- oops! ;;; ;;; FIXME: It'd probably be good to use the unbound marker for this. ;;; However, there might be some gotchas involving assumptions by ;;; e.g. AREF that they're not going to return the unbound marker, ;;; and there's also the noted-below problem that the C-level code ;;; contains implicit assumptions about this marker. ;;; ;;; KLUDGE: Note that as of version 0.pre7 there's a dependence in the ;;; gencgc.c code on this value being a symbol. (This is only one of ;;; several nasty dependencies between that code and this, alas.) ;;; -- WHN 2001-08-17 (eval-when (:compile-toplevel :load-toplevel :execute) (def!constant +empty-ht-slot+ '%empty-ht-slot%)) ;;; We shouldn't need this mess now that EVAL-WHEN works. ;;; KLUDGE: Using a private symbol still leaves us vulnerable to users ;;; getting nonconforming behavior by messing around with ;;; DO-ALL-SYMBOLS. That seems like a fairly obscure problem, so for ;;; now we just don't worry about it. If for some reason it becomes ;;; worrisome and the magic value needs replacement: ;;; * The replacement value needs to be LOADable with EQL preserved, ;;; so that the macroexpansion for WITH-HASH-TABLE-ITERATOR will ;;; work when compiled into a file and loaded back into SBCL. ;;; (Thus, just uninterning %EMPTY-HT-SLOT% doesn't work.) ;;; * The replacement value needs to be acceptable to the ;;; low-level gencgc.lisp hash table scavenging code. ;;; * The change will break binary compatibility, since comparisons ;;; against the value used at the time of compilation are wired ;;; into FASL files. ;;; -- WHN 20000622 ;;;; DO-related stuff which needs to be visible on the cross-compilation host (eval-when (#-sb-xc :compile-toplevel :load-toplevel :execute) (defun frob-do-body (varlist endlist decls-and-code bind step name block) (let* ((r-inits nil) ; accumulator for reversed list (r-steps nil) ; accumulator for reversed list (label-1 (gensym)) (label-2 (gensym))) ;; Check for illegal old-style DO. (when (or (not (listp varlist)) (atom endlist)) (error "ill-formed ~S -- possibly illegal old style DO?" name)) ;; Parse VARLIST to get R-INITS and R-STEPS. (dolist (v varlist) (flet (;; (We avoid using CL:PUSH here so that CL:PUSH can be ;; defined in terms of CL:SETF, and CL:SETF can be ;; defined in terms of CL:DO, and CL:DO can be defined ;; in terms of the current function.) (push-on-r-inits (x) (setq r-inits (cons x r-inits))) ;; common error-handling (illegal-varlist () (error "~S is an illegal form for a ~S varlist." v name))) (cond ((symbolp v) (push-on-r-inits v)) ((listp v) (unless (symbolp (first v)) (error "~S step variable is not a symbol: ~S" name (first v))) (let ((lv (length v))) ;; (We avoid using CL:CASE here so that CL:CASE can ;; be defined in terms of CL:SETF, and CL:SETF can ;; be defined in terms of CL:DO, and CL:DO can be ;; defined in terms of the current function.) (cond ((= lv 1) (push-on-r-inits (first v))) ((= lv 2) (push-on-r-inits v)) ((= lv 3) (push-on-r-inits (list (first v) (second v))) (setq r-steps (list* (third v) (first v) r-steps))) (t (illegal-varlist))))) (t (illegal-varlist))))) ;; Construct the new form. (multiple-value-bind (code decls) (parse-body decls-and-code :doc-string-allowed nil) `(block ,block (,bind ,(nreverse r-inits) ,@decls (tagbody (go ,label-2) ,label-1 (tagbody ,@code) (,step ,@(nreverse r-steps)) ,label-2 (unless ,(first endlist) (go ,label-1)) (return-from ,block (progn ,@(rest endlist)))))))))) ;;; This is like DO, except it has no implicit NIL block. Each VAR is ;;; initialized in parallel to the value of the specified INIT form. ;;; On subsequent iterations, the VARS are assigned the value of the ;;; STEP form (if any) in parallel. The TEST is evaluated before each ;;; evaluation of the body FORMS. When the TEST is true, the ;;; EXIT-FORMS are evaluated as a PROGN, with the result being the ;;; value of the DO. (defmacro do-anonymous (varlist endlist &rest body) (frob-do-body varlist endlist body 'let 'psetq 'do-anonymous (gensym))) ;;;; GENSYM tricks ;;; Compile a version of BODY for all TYPES, and dispatch to the ;;; correct one based on the value of VAR. This was originally used ;;; only for strings, hence the name. Renaming it to something more ;;; generic might not be a bad idea. (defmacro string-dispatch ((&rest types) var &body body) (let ((fun (sb!xc:gensym "STRING-DISPATCH-FUN"))) `(flet ((,fun (,var) ,@body)) (declare (inline ,fun)) (etypecase ,var ,@(loop for type in types ;; TRULY-THE allows transforms to take advantage of the type ;; information without need for constraint propagation. collect `(,type (,fun (truly-the ,type ,var)))))))) ;;; Automate an idiom often found in macros: ;;; (LET ((FOO (GENSYM "FOO")) ;;; (MAX-INDEX (GENSYM "MAX-INDEX-"))) ;;; ...) ;;; ;;; "Good notation eliminates thought." -- Eric Siggia ;;; ;;; Incidentally, this is essentially the same operator which ;;; _On Lisp_ calls WITH-GENSYMS. (defmacro with-unique-names (symbols &body body) `(let ,(mapcar (lambda (symbol) (let* ((symbol-name (symbol-name symbol)) (stem (if (every #'alpha-char-p symbol-name) symbol-name (concatenate 'string symbol-name "-")))) `(,symbol (sb!xc:gensym ,stem)))) symbols) ,@body)) ;;; Return a list of N gensyms. (This is a common suboperation in ;;; macros and other code-manipulating code.) (declaim (ftype (function (index &optional t) (values list &optional)) make-gensym-list)) (defun make-gensym-list (n &optional name) (when (eq t name) (break)) (if name (loop repeat n collect (sb!xc:gensym (string name))) (loop repeat n collect (sb!xc:gensym)))) ;;;; miscellany ;;; Lots of code wants to get to the KEYWORD package or the ;;; COMMON-LISP package without a lot of fuss, so we cache them in ;;; variables. TO DO: How much does this actually buy us? It sounds ;;; sensible, but I don't know for sure that it saves space or time.. ;;; -- WHN 19990521 ;;; ;;; (The initialization forms here only matter on the cross-compilation ;;; host; In the target SBCL, these variables are set in cold init.) (declaim (type package *cl-package* *keyword-package*)) (defvar *cl-package* (find-package "COMMON-LISP")) (defvar *keyword-package* (find-package "KEYWORD")) ;;; Concatenate together the names of some strings and symbols, ;;; producing a symbol in the current package. (eval-when (#-sb-xc :compile-toplevel :load-toplevel :execute) (defun symbolicate (&rest things) (let* ((length (reduce #'+ things :key (lambda (x) (length (string x))))) (name (make-array length :element-type 'character))) (let ((index 0)) (dolist (thing things (values (intern name))) (let* ((x (string thing)) (len (length x))) (replace name x :start1 index) (incf index len))))))) (defun gensymify (x) (if (symbolp x) (sb!xc:gensym (symbol-name x)) (sb!xc:gensym))) ;;; like SYMBOLICATE, but producing keywords (defun keywordicate (&rest things) (let ((*package* *keyword-package*)) (apply #'symbolicate things))) ;;; Access *PACKAGE* in a way which lets us recover when someone has ;;; done something silly like (SETF *PACKAGE* :CL-USER). (Such an ;;; assignment is undefined behavior, so it's sort of reasonable for ;;; it to cause the system to go totally insane afterwards, but it's a ;;; fairly easy mistake to make, so let's try to recover gracefully ;;; instead.) (defun sane-package () (let ((maybe-package *package*)) (cond ((and (packagep maybe-package) ;; For good measure, we also catch the problem of ;; *PACKAGE* being bound to a deleted package. ;; Technically, this is not undefined behavior in itself, ;; but it will immediately lead to undefined to behavior, ;; since almost any operation on a deleted package is ;; undefined. #-sb-xc-host (package-%name maybe-package)) maybe-package) (t ;; We're in the undefined behavior zone. First, munge the ;; system back into a defined state. (let ((really-package (find-package :cl-user))) (setf *package* really-package) ;; Then complain. (error 'simple-type-error :datum maybe-package :expected-type '(and package (satisfies package-name)) :format-control "~@<~S can't be a ~A: ~2I~_~S has been reset to ~S.~:>" :format-arguments (list '*package* (if (packagep maybe-package) "deleted package" (type-of maybe-package)) '*package* really-package))))))) ;;; Access *DEFAULT-PATHNAME-DEFAULTS*, issuing a warning if its value ;;; is silly. (Unlike the vaguely-analogous SANE-PACKAGE, we don't ;;; actually need to reset the variable when it's silly, since even ;;; crazy values of *DEFAULT-PATHNAME-DEFAULTS* don't leave the system ;;; in a state where it's hard to recover interactively.) (defun sane-default-pathname-defaults () (let* ((dfd *default-pathname-defaults*) (dfd-dir (pathname-directory dfd))) ;; It's generally not good to use a relative pathname for ;; *DEFAULT-PATHNAME-DEFAULTS*, since relative pathnames ;; are defined by merging into a default pathname (which is, ;; by default, *DEFAULT-PATHNAME-DEFAULTS*). (when (and (consp dfd-dir) (eql (first dfd-dir) :relative)) (warn "~@<~S is a relative pathname. (But we'll try using it anyway.)~@:>" '*default-pathname-defaults*)) dfd)) ;;; Give names to elements of a numeric sequence. (defmacro defenum ((&key (start 0) (step 1)) &rest identifiers) (let ((results nil) (index 0) (start (eval start)) (step (eval step))) (dolist (id identifiers) (when id (multiple-value-bind (sym docs) (if (consp id) (values (car id) (cdr id)) (values id nil)) (push `(def!constant ,sym ,(+ start (* step index)) ,@docs) results))) (incf index)) `(progn ,@(nreverse results)))) ;;; generalization of DEFCONSTANT to values which are the same not ;;; under EQL but under e.g. EQUAL or EQUALP ;;; ;;; DEFCONSTANT-EQX is to be used instead of DEFCONSTANT for values ;;; which are appropriately compared using the function given by the ;;; EQX argument instead of EQL. ;;; ;;; Note: Be careful when using this macro, since it's easy to ;;; unintentionally pessimize your code. A good time to use this macro ;;; is when the values defined will be fed into optimization ;;; transforms and never actually appear in the generated code; this ;;; is especially common when defining BYTE expressions. Unintentional ;;; pessimization can result when the values defined by this macro are ;;; actually used in generated code: because of the way that the ;;; dump/load system works, you'll typically get one copy of consed ;;; structure for each object file which contains code referring to ;;; the value, plus perhaps one more copy bound to the SYMBOL-VALUE of ;;; the constant. If you don't want that to happen, you should ;;; probably use DEFPARAMETER instead; or if you truly desperately ;;; need to avoid runtime indirection through a symbol, you might be ;;; able to do something with LOAD-TIME-VALUE or MAKE-LOAD-FORM. (defmacro defconstant-eqx (symbol expr eqx &optional doc) `(def!constant ,symbol (%defconstant-eqx-value ',symbol ,expr ,eqx) ,@(when doc (list doc)))) (defun %defconstant-eqx-value (symbol expr eqx) (declare (type function eqx)) (flet ((bummer (explanation) (error "~@" symbol expr explanation (symbol-value symbol)))) (cond ((not (boundp symbol)) expr) ((not (constantp symbol)) (bummer "already bound as a non-constant")) ((not (funcall eqx (symbol-value symbol) expr)) (bummer "already bound as a different constant value")) (t (symbol-value symbol))))) ;;; a helper function for various macros which expect clauses of a ;;; given length, etc. ;;; ;;; Return true if X is a proper list whose length is between MIN and ;;; MAX (inclusive). (defun proper-list-of-length-p (x min &optional (max min)) ;; FIXME: This implementation will hang on circular list ;; structure. Since this is an error-checking utility, i.e. its ;; job is to deal with screwed-up input, it'd be good style to fix ;; it so that it can deal with circular list structure. (cond ((minusp max) nil) ((null x) (zerop min)) ((consp x) (and (plusp max) (proper-list-of-length-p (cdr x) (if (plusp (1- min)) (1- min) 0) (1- max)))) (t nil))) (defun proper-list-p (x) (unless (consp x) (return-from proper-list-p (null x))) (let ((rabbit (cdr x)) (turtle x)) (flet ((pop-rabbit () (when (eql rabbit turtle) ; circular (return-from proper-list-p nil)) (when (atom rabbit) (return-from proper-list-p (null rabbit))) (pop rabbit))) (loop (pop-rabbit) (pop-rabbit) (pop turtle))))) ;;; Helpers for defining error-signalling NOP's for "not supported ;;; here" operations. (defmacro define-unsupported-fun (name &optional (doc "Unsupported on this platform.") (control "~S is unsupported on this platform ~ (OS, CPU, whatever)." controlp) arguments) `(defun ,name (&rest args) ,doc (declare (ignore args)) (error 'unsupported-operator :format-control ,control :format-arguments (if ,controlp ',arguments (list ',name)))))