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macros-2.lisp
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macros-2.lisp
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;;; -*- Mode: LISP; Syntax: COMMON-LISP; Package: *SIM-I -*-
(in-package :*sim-i)
;;;> *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+
;;;>
;;;> The Thinking Machines *Lisp Simulator is in the public domain.
;;;> You are free to do whatever you like with it, including but
;;;> not limited to distributing, modifying, and copying.
;;;>
;;;> *+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+*+
;;; Author: JP Massar.
;;;; ****************************************************************************
;;;;
;;;; CODE FOR OTHER *LISP MACROS
;;;;
;;;; ****************************************************************************
(defun remove-return-pvar-p-from-body (body function-name)
(if (and (listp body)
(listp (car body))
(eq 'declare (caar body))
)
(let ((declare-form (car body)))
(if (return-pvar-p-declaration-p declare-form)
(let ((value (return-pvar-p-declaration-value declare-form)))
(if (member value '(t nil))
(values (cdr body) (if value :yes :no))
(error "Illegal value, ~S, for return-pvar-p declaration. Only T or NIL are allowed" value)
))
(error "Illegal declare form, ~S, in ~S. Only return-pvar-p declarations are allowed." declare-form function-name)
))
(values body :maybe)
))
(defmacro *all (&body body)
"Select all processors for the body"
(multiple-value-bind (body return-pvar-p)
(remove-return-pvar-p-from-body body '*all)
(let ((css-index-symbol (gensym "CSS-INDEX-"))
(value-symbol (gensym "*ALL-RETURN-VALUE-"))
(old-temp-pvar-list-symbol (gensym "OLD-TEMP-PVAR-LIST-"))
)
`(let ((,css-index-symbol *css-current-level*)
(,old-temp-pvar-list-symbol *temp-pvar-list*)
)
(prog2
(push-css-select-all)
(let ((,value-symbol (progn .,body)))
(check-return-pvar-p ,value-symbol ,return-pvar-p)
(handle-returning-pvar ,value-symbol ,old-temp-pvar-list-symbol nil)
)
(pop-css-to-level ,css-index-symbol)
)))))
(defmacro *when (test-pvar &body body)
"subselect all processors with test-pvar non-nil"
(multiple-value-bind (body return-pvar-p)
(remove-return-pvar-p-from-body body '*when)
(let ((css-index-symbol (gensym "CSS-INDEX-"))
(old-temp-pvar-list-symbol (gensym "OLD-TEMP-PVAR-LIST-"))
(test-pvar-symbol (gensym "TEST-PVAR-"))
(value-symbol (gensym "*WHEN-RETURN-VALUE-"))
)
`(let* ((,css-index-symbol *css-current-level*)
(,old-temp-pvar-list-symbol *temp-pvar-list*)
(,test-pvar-symbol ,test-pvar)
,value-symbol)
(simple-pvar-argument!! ,test-pvar-symbol)
(setq ,value-symbol
(prog2
(push-css ,test-pvar-symbol)
(progn ,@body)
(pop-css-to-level ,css-index-symbol)
))
(check-return-pvar-p ,value-symbol ,return-pvar-p)
(handle-returning-pvar
,value-symbol
,old-temp-pvar-list-symbol
nil
)))))
(defmacro *unless (test-pvar &body body)
`(*when (not!! ,test-pvar)
,@body
))
(defmacro *if (condition true-clause &optional else-clause)
(if (null else-clause)
`(progn (*when ,condition ,true-clause) (values))
`(progn
,(let ((condition-symbol (gensym "*IF-CONDITION-")))
`(*let ((,condition-symbol ,condition))
(*when ,condition-symbol ,true-clause)
(*when (not!! ,condition-symbol) ,else-clause)
))
(values)
)))
(defmacro *cond (&rest clauses)
"similar to *if"
(cond ((null clauses) nil)
((eql (length clauses) 1)
`(*if ,(first (first clauses)) (progn ,@(rest (first clauses))))
)
((eq (first (first clauses)) 't!!)
;; if there are more clauses, issue a warning to that effect
(when (not (eql (length clauses) 1))
(error "~% *cond: t!! is used in a clause other than the last")
))
(t
`(*if ,(first (first clauses))
(progn ., (rest (first clauses)))
(*cond ., (rest clauses))))))
(defmacro if!! (pvar-expression true-pvar &optional (else-pvar nil!!))
"IF!! will return a pvar. This pvar will contain TRUE-PVAR
for all processors with PVAR-EXPRESSION
true and ELSE-PVAR for all those with PVAR-EXPRESSION false.
During the execution of TRUE-PVAR, the CSS
will be set to those processors that passed PVAR-EXPRESSION,
whereas during execution of ELSE-PVAR, the
CSS will be set to those processors which failed PVAR-EXPRESSION.
"
(let ((if!!-result-symbol (gensym "IF!!-RESULT-")))
`(*let (,if!!-result-symbol)
(*if ,pvar-expression (*set ,if!!-result-symbol ,true-pvar) (*set ,if!!-result-symbol ,else-pvar))
,if!!-result-symbol
)))
(defmacro cond!! (&rest clauses)
(let ((len (length clauses)))
(cond ( (eql 0 len) 'nil!! )
( (eql 1 len)
(let* ((clause (car clauses))
(test (car clause))
(consequents (cdr clause))
)
(if (null consequents)
test
`(if!! ,test (progn ,@consequents) nil!!)
))
)
( t
(let* ((clause1 (car clauses))
(test1 (car clause1))
(consequents1 (cdr clause1))
)
(if (null consequents1)
(let ((test-symbol (gensym "COND!!-TEMP-TEST-")))
`(*let ((,test-symbol ,test1))
(if!! ,test-symbol
,test-symbol
(cond!! ,@(cdr clauses))
)))
`(if!! ,test1
(progn ,@consequents1)
(cond!! ,@(cdr clauses))
)))
)
)))
(defmacro and!! (&rest pvars)
(cond ((null pvars) 't!!)
((= 1 (length pvars))
(let ((sym (gensym "and!!-")))
`(let ((,sym ,(first pvars)))
(simple-pvar-argument!! ,sym)
(pvar-check ,sym)
,sym
)))
(t
`(if!! ,(first pvars) (and!! ., (rest pvars)) nil!!))))
;;; (and!! 1 2)
(defmacro or!! (&rest pvars)
(cond ((null pvars) 'nil!!)
((= 1 (length pvars))
(let ((sym (gensym "or!!-")))
`(let ((,sym ,(first pvars)))
(simple-pvar-argument!! ,sym)
(pvar-check ,sym)
,sym
)))
(t
`(let ((temp ,(first pvars)))
(if!! temp temp (or!! ., (rest pvars)))))))
;;; (or!! 1 2 3)
(defmacro with-css-saved (&rest body)
"Save the state of the temporary pvar list and the
currently selected set. If anyone tries to
break out of the body of the form we use
unwind-protect to restore state before allowing
the exit.
"
(let ((foo (gensym "OLD-CSS-LEVEL"))
(bar (gensym "OLD-TEMP-PVAR-LIST-"))
(baz (gensym "WITH-CSS-BODY-VALUE-"))
)
`(let ((,foo *css-current-level*)
(,bar *temp-pvar-list*)
(,baz nil)
)
(unwind-protect
(setq ,baz (progn ,@ body))
(progn
(pop-css-to-level ,foo)
(handle-returning-pvar ,baz ,bar nil)
)))))
(defun *defun-function-symbol-exists? (symbol)
(let ((*defun-symbol (make-*defun-function symbol)))
(if (and (macro-function symbol) (fboundp *defun-symbol)) *defun-symbol nil)
))
(defun *apply-error (who f-name)
(error "In ~A: The ~S operator is a macro.~%~
~A cannot accept macros other than those defined by *DEFUN."
who f-name who))
(defmacro *funcall (f &rest args)
(let ((actual-function-symbol (gensym "*FUNCALL-ACTUAL-FUNCTION-"))
(old-temp-pvar-symbol (gensym "*FUNCALL-OLD-TEMP-PVAR-"))
(f-symbol (gensym "FUNCTION-ARGUMENT-"))
)
`(let* ((,old-temp-pvar-symbol *temp-pvar-list*)
(,f-symbol ,f)
(,actual-function-symbol
(if (symbolp ,f-symbol)
(or (*defun-function-symbol-exists? ,f-symbol)
(when (macro-function ,f-symbol)
(*apply-error '*funcall ,f-symbol))
,f-symbol)
,f-symbol
))
)
(handle-returning-pvar
(funcall ,actual-function-symbol ,@args) ,old-temp-pvar-symbol nil)
)))
(defmacro *apply (f arg &rest args)
(let ((actual-function-symbol (gensym "*APPLY-ACTUAL-FUNCTION-"))
(old-temp-pvar-symbol (gensym "*APPLY-OLD-TEMP-PVAR-"))
(f-symbol (gensym "FUNCTION-ARGUMENT-"))
)
`(let* ((,old-temp-pvar-symbol *temp-pvar-list*)
(,f-symbol ,f)
(,actual-function-symbol
(if (symbolp ,f-symbol)
(or (*defun-function-symbol-exists? ,f-symbol)
(when (macro-function ,f-symbol)
(*apply-error '*apply ,f-symbol))
,f-symbol)
,f-symbol
))
)
(handle-returning-pvar
(apply ,actual-function-symbol (list* ,arg ,@args)) ,old-temp-pvar-symbol nil)
)))
;;;; Code for CASE!! and friends. Written by Jim Salem.
(defmacro once-only (variable-list &body body)
(cond ((null variable-list) `(progn .,body))
(t
(let* ((var (car variable-list)))
`(once-only ,(cdr variable-list)
(cond ((or (atom ,var) (member (car ,var) '(quote function)))
;;; Variable is an atom or quoted.
;;; Don't expand differently
.,body)
(t
(let* ((temp (gensym "ONCE-ONLY-VAR"))
(actual-arg ,var)
(form (gensym "ONCE-ONLY"))
(,var temp)
)
(setq form (progn .,body))
`(let ((,temp ,actual-arg))
,form)))))))))
(defmacro def-*lisp-case-form (case-function-name ecase-function-name cond-function-name)
`(progn
(defmacro ,case-function-name (pvar-expression &body clauses)
(once-only (pvar-expression)
`(,',cond-function-name
.,(let ((last-clause-found-p nil)
keys body
(return-cond-clauses nil)
)
(dolist (clause clauses)
;; For example, CLAUSE could be ((:apples :oranges) (eat-fruit :seedsp t))
(setq keys (car clause)) ;; E.G. (:apples :oranges)
(setq body (cdr clause)) ;; E.G. ((eat-fruit :seedsp t))
;;; WARNINGS ---
;;; Do we have a clause we can never reach ?
(when last-clause-found-p
(warn "The clause ~S appeared after a T or OTHERWISE clause in ~A"
clause ',case-function-name))
(when (or (eql keys 't!!) (and (listp keys)
(or (eql (car keys) '!!)
(and (listp (car keys))
(eql (caar keys) '!!))
)))
(warn "The keywords for ~A shouldn't be pvars (in clause ~S)."
',case-function-name
clause)
)
;;; GENERATE COND CLAUSES
(push (cond
((listp keys)
;;; Multiple keywords for this clause
`((or!! .,(mapcar #'(lambda (x)
`(eql!! ,pvar-expression (!! ',x))) keys))
.,body))
((or (eql keys 't) (eql keys 'otherwise))
;;; Final clause
(setq last-clause-found-p t)
`(t!! .,body))
(t
;;; A clause with a single keyword
`((eql!! ,pvar-expression (!! ',keys)) .,body)
)
)
return-cond-clauses))
(nreverse return-cond-clauses)
))))
(defmacro ,ecase-function-name (pvar-expression &body clauses)
(let ((all-keys nil)
keys
)
;;; Collect the names of all the keys
(dolist (clause clauses)
(setq keys (car clause))
(cond ((atom keys) (push keys all-keys))
(t (dolist (key keys)
(push key all-keys)
))
))
`(,',case-function-name ,pvar-expression
,@clauses
(t
(when (*or t!!)
(error "For ~A, PVAR-EXPRESSION in some processor was not one of ~{~S~^, ~}."
',',ecase-function-name ',all-keys))
nil!!))))
))
(def-*lisp-case-form case!! ecase!! cond!!)
(def-*lisp-case-form *case *ecase *cond)
(defmacro incf-use-count (function-name)
; `(incf (get ,function-name 'use-count))
(declare (ignore function-name))
nil
)
(defmacro assocv-cadr (value list) `(cadr (assoc ,value ,list)))
(defmacro assocv-cdr (value list) `(cdr (assoc ,value ,list)))
(defmacro no-processors-active () `(*and nil!!))
(defmacro some-processor-active () `(not (*and nil!!)))
(defmacro all-processors-active () `(eql *number-of-processors-limit* (*sum (!! 1))))
(defmacro with-array-elements-iterated (array var &body body)
(assert (symbolp var))
(let ((array-symbol (gensym "ARRAY-"))
(body-function (gensym "WITH-ARRAY-ELEMENTS-ITERATED-BODY-FUNCTION-"))
)
`(let ((,array-symbol ,array))
(flet
((,body-function (,var) ,@body))
(if (not (eql 1 (array-rank ,array-symbol)))
(let ((displaced-array (make-array (array-total-size ,array-symbol) :displaced-to ,array-symbol)))
(dotimes (j (length displaced-array))
(,body-function (aref displaced-array j))
))
(dotimes (j (length ,array-symbol))
(,body-function (aref ,array-symbol j))
))))))
(defmacro with-many-array-elements-iterated ((&rest vars) (&rest arrays) &body body)
(assert (every #'symbolp vars))
(assert (eql (length vars) (length arrays)) () "Number of variables not equal to number of arrays to iterate over")
(let* ((array-symbols (mapcar #'(lambda (var) (gensym (concatenate 'string (symbol-name var) "-ARRAY-"))) vars))
(displaced-array-symbols
(mapcar #'(lambda (array-symbol) (gensym (concatenate 'string "DISPLACED-" (symbol-name array-symbol)))) array-symbols))
(body-function (gensym "WITH-MANY-ARRAY-ELEMENTS-ITERATED-BODY-FUNCTION-"))
)
(if (zerop (length vars))
nil
`(let
(,@(mapcar #'(lambda (array-symbol array) `(,array-symbol ,array)) array-symbols arrays))
(flet
((,body-function (,@vars) ,@body))
(let* ((first-array ,(first array-symbols))
(array-dimensions (array-dimensions first-array))
)
(assert (every #'(lambda (array) (equal array-dimensions (array-dimensions array))) (list ,@array-symbols))
()
"Error. All the arrays you are iterating over do not have the same dimensions"
)
(if (eql 1 (array-rank first-array))
(dotimes (j (length ,(first array-symbols)))
(,body-function ,@(mapcar #'(lambda (array-symbol) `(aref ,array-symbol j)) array-symbols))
)
(let
(,@(mapcar
#'(lambda (displaced-array-symbol array-symbol)
`(,displaced-array-symbol (make-array (array-total-size ,array-symbol) :displaced-to ,array-symbol))
)
displaced-array-symbols array-symbols
))
(dotimes (j (length ,(first displaced-array-symbols)))
(,body-function ,@(mapcar #'(lambda (array-symbol) `(aref ,array-symbol j)) displaced-array-symbols))
)))))))))
(defmacro with-structure-elements-iterated
(((&rest vars) (&rest structures) slot-accessor-functions &key (aliased? nil)) &body body)
(assert (every #'symbolp vars))
(assert (eql (length vars) (length structures)) () "Number of variables not equal to number of structures to iterate over")
(let* ((structure-symbols (mapcar #'(lambda (var) (gensym (concatenate 'string (symbol-name var) "-STRUCTURE-"))) vars))
(body-function (gensym "WITH-STRUCTURE-ELEMENTS-ITERATED-BODY-FUNCTION-"))
(slot-accessor-functions-list-symbol (gensym "SLOT-ACCESSORS-LIST-"))
)
(if (zerop (length vars))
nil
`(let
(,@(mapcar #'(lambda (structure-symbol structure) `(,structure-symbol ,structure)) structure-symbols structures))
(let ((,slot-accessor-functions-list-symbol ,slot-accessor-functions))
(flet
((,body-function (,@vars) ,@body))
(let* ((first-structure ,(first structure-symbols))
(type (type-of first-structure))
)
(assert (every #'(lambda (structure) (eq type (type-of structure))) (list ,@structure-symbols))
()
"Error. All the structures you are iterating over are not of the same type"
)
(dolist (slot-accessor
,(if (not aliased?)
slot-accessor-functions-list-symbol
`(mapcar #'*defstruct-slot-alias!!-function ,slot-accessor-functions-list-symbol)
))
(,body-function
,@(mapcar #'(lambda (structure) `(funcall slot-accessor ,structure)) structure-symbols)
)))))))))
(defmacro do-for-selected-processors-internal ((var) &body body)
(assert (symbolp var))
(let ((local-css-symbol (gensym "LOCAL-CSS-")))
`(let ((,local-css-symbol *css*))
(with-bit-vectors (,local-css-symbol)
(dotimes (,var *number-of-processors-limit*)
(declare (type fixnum ,var))
(when (eql 1 (sbit ,local-css-symbol ,var)) ,.body)
)))))
(defun any-processors-active-function ()
(block
exit
(do-for-selected-processors-internal (j) (return-from exit t))
nil
))
(defun all-processors-active-function ()
(let ((count 0))
(do-for-selected-processors-internal (j) (incf count))
(= count *number-of-processors-limit*)
))
(defmacro with-selected-general-pvar-arrays ((processor-index &key (return-any-set t)) (&rest vars) (&rest pvars) &body body)
(assert (eql (length vars) (length pvars)))
(assert (every #'symbolp vars))
(assert (symbolp processor-index))
(let ((any-set-symbol (gensym "ANY-SET-")))
`(let
(,@(mapcar #'(lambda (symbol pvar) `(,symbol (pvar-array ,pvar))) vars pvars)
,@(if return-any-set `((,any-set-symbol nil)))
)
(with-simple-vectors (,@vars)
(do-for-selected-processors-internal (,processor-index)
,@(if return-any-set `((setq ,any-set-symbol t)))
,@body
)
,@(if return-any-set `(,any-set-symbol))
))))
(defmacro with-scalar-body-mapped-into-result-pvar ((result-pvar) (&rest source-pvars) function-of-n-scalars)
(let ((result-pvar-array-symbol (gensym "RESULT-PVAR-ARRAY-"))
(index-symbol (gensym "PROCESSOR-INDEX-"))
)
(let* ((source-pvar-symbols
(mapcar #'(lambda (pvar) (declare (ignore pvar)) (gensym "SOURCE-PVAR-ARRAY-")) source-pvars))
(aref-forms (mapcar #'(lambda (symbol) `(aref ,symbol ,index-symbol)) source-pvar-symbols))
)
`(with-selected-general-pvar-arrays
(,index-symbol) (,@(cons result-pvar-array-symbol source-pvar-symbols)) (,@(cons result-pvar source-pvars))
(setf (aref ,result-pvar-array-symbol ,index-symbol)
,(if (symbolp function-of-n-scalars)
`(,function-of-n-scalars ,@aref-forms)
`(funcall ,function-of-n-scalars ,@aref-forms)
))))))
(defmacro *compile ((&key (safety 1) (warning-level :normal)) &body body)
(declare (ignore safety warning-level))
`(progn ,@body)
)
(defmacro *nocompile (&body body) `(progn ,@body))
(defmacro *compile-blindly (&body body) `(progn ,@body))
(defun *lisp-compiler-hook (form env) form env nil)
(defmacro pref
#-(OR :CCL :ALLEGRO KCL)
(&whole form pvar processor &key vp-set &environment macroexpand-environment)
#+(OR :CCL :ALLEGRO KCL)
(&whole form &environment macroexpand-environment pvar processor &key vp-set)
;; What's going on here?
;; We need to look at the form to evaluate to get the pvar being referenced,
;; and the form to evaluate to get the processor from which we will do
;; the extraction.
;; There are two cases for the pvar expression. Either it is a symbol or
;; it is not. If it is a symbol, life is easy; we can just call
;; pref-function, which works with a pvar in any vp set. If it is not
;; a symbol, then two things must happen: we must evaluate the expression
;; in the proper vp set, and we must evaluate the expression in the
;; active set which consists solely of the processor being read from.
;; The :vp-set argument, if provided, is used to determine the proper
;; vp set in expression case. If it is not provided in the expression
;; case the *current-vp-set* is assumed, and the user will lose if
;; the expression references pvars in a different vp set.
;; There are two major cases for the processor form. Either it is
;; of the form (grid!! &rest args) or it is not.
;; If it is a grid!! call, then there are 3 subcases:
;; First, if no :vp-set argument is provided and the pvar expression
;; is a symbol, we convert the arguments of the grid!! call into
;; a cube address using the vp-set of the pvar symbol.
;; Second, if a :vp-set argument is provided, we convert the
;; arguments using that vp set.
;; Finally, if no :vp-set argument is provided and the pvar expression
;; is not a symbol we convert using *current-vp-set*.
;; If the form is not a grid!! call, then what it evaluates to can
;; be one of two things: a cube address or an address object.
;; If it is a cube address we just use it. If it is an address object,
;; then we must extract a cube address from it. To do this we must
;; transform the address object into an address object in the proper
;; vp-set. The proper vp set is one of three possibilities, as discussed
;; above.
;; First check if the *compiler wants to deal with it. If so, let it!
(or (*lisp-compiler-hook form macroexpand-environment)
(let ((me-pvar-expression (macroexpand pvar macroexpand-environment))
(me-processor-expression (macroexpand processor macroexpand-environment))
)
(let* ((is-grid-expression (and (listp me-processor-expression) (eq 'grid (car me-processor-expression))))
(processor-form
(if is-grid-expression
(cond
(vp-set `(cube-from-vp-grid-address ,vp-set ,@(cdr me-processor-expression)))
((symbolp me-pvar-expression)
`(cube-from-vp-grid-address (pvar-vp-set ,me-pvar-expression) ,@(cdr me-processor-expression))
)
(t `(cube-from-grid-address ,@(cdr me-processor-expression)))
)
me-processor-expression
))
)
(if (symbolp me-pvar-expression)
(let ((vp-set-form (if vp-set vp-set `(if (fast-pvarp ,me-pvar-expression)
(pvar-vp-set ,me-pvar-expression)
*current-vp-set*))))
`(new-pref-function ,me-pvar-expression ,processor-form ,vp-set-form))
(let ((vp-set-form (if vp-set vp-set '*current-vp-set*)))
`(new-pref-function #'(lambda ()
(let ((pvar-exp ,me-pvar-expression))
(simple-pvar-argument!! pvar-exp)
pvar-exp)) ,processor-form ,vp-set-form)))))))
(defmacro pref-grid (pvar &rest indices) `(pref ,pvar (grid ,@indices)))
(defmacro all!! (&body body) `(*all (declare (return-pvar-p t)) ,@body))
(defmacro when!! (condition &body body) `(*when ,condition (declare (return-pvar-p t)) ,@body))
(defmacro let!! (bindings &body body) `(*let ,bindings (declare (return-pvar-p t)) ,@body))
(defmacro with-grid-indices-iterated
((iterated-index-list-symbol
number-of-grid-indices
&key
start-index-list
end-index-list
mask
(check-arguments t)
(direction :backward)
(bind-as :list)
)
&rest body
)
(assert (symbolp iterated-index-list-symbol))
(let ((start-temp (gensym "START-INDEX-LIST-"))
(end-temp (gensym "END-INDEX-LIST-"))
(mask-temp (gensym "MASK-"))
(n-dimensions-temp (gensym "N-DIMENSIONS-"))
(direction-temp (gensym "DIRECTION-"))
(bind-as-temp (gensym "BIND-AS-"))
)
`(let* ((,start-temp ,start-index-list)
(,end-temp ,end-index-list)
(,mask-temp ,mask)
(,n-dimensions-temp ,number-of-grid-indices)
(,direction-temp ,direction)
(,bind-as-temp ,bind-as)
)
(when ,check-arguments
(check-args-for-with-grid-indices-iterated
,direction-temp ,bind-as-temp ,mask-temp ,start-temp ,end-temp ,n-dimensions-temp))
(when (null ,start-temp)
(setq ,start-temp (make-sequence 'vector ,n-dimensions-temp :initial-element 0)))
(when (null ,end-temp)
(setq ,end-temp (concatenate 'vector *current-cm-configuration*)))
(when (null ,mask-temp)
(setq ,mask-temp (make-list ,n-dimensions-temp :initial-element t)))
(setq ,iterated-index-list-symbol
(concatenate (if (eq ,bind-as-temp :list) 'list 'vector) ,start-temp))
(loop
(progn ,@body)
(when
(null
(next-grid-coordinates
,start-temp
,end-temp
,iterated-index-list-symbol
,mask-temp
,n-dimensions-temp
,direction-temp
))
(return)
)
))))
(defmacro with-displaced-arrays ((&rest arrays) (&rest displaced-array-symbols) &body body)
(assert (eql (length arrays) (length displaced-array-symbols)))
(assert (every #'symbolp arrays))
`(let
,(mapcar
#'(lambda (array displaced-array-symbol)
`(,displaced-array-symbol
(if (vectorp ,array)
,array
(make-array (array-total-size ,array) :displaced-to ,array :element-type (array-element-type ,array))
)))
arrays
displaced-array-symbols
)
,@body
))
(defmacro defun-wcefi (name args &body body)
`(defun ,name ,args ,@body)
)
(defmacro defun-wco (name args &body body)
`(defun ,name ,args ,@body)
)
(defmacro pref-grid-relative!! (pvar &rest index-pvars)
(declare (ignore pvar index-pvars))
(error "The macro pref-grid-relative!! is obsolete as of Release 5.0. Use NEWS!!, NEWS-BORDER!! or PREF!! instead.")
)
(defmacro address-object-cached-geometry-id (address-object-pvar)
`(pvar-address-object-geometry-id ,address-object-pvar)
)
(defmacro set-address-object-cached-geometry-id (address-object-pvar geometry-id)
`(setf (pvar-address-object-geometry-id ,address-object-pvar) ,geometry-id)
)
(defun cache-address-object-pvar (ao geometry-id)
(set-address-object-cached-geometry-id ao geometry-id)
)
(defun decache-address-object-pvar (ao)
(set-address-object-cached-geometry-id ao nil)
)
(defmacro coerce-integer-pvar-into-dest (dest source &key dest-type)
(declare (ignore dest-type))
`(*set ,dest ,source)
)
(defmacro without-void-pvars (pvar-list &body body)
(declare (ignore pvar-list))
`(progn ,@body)
)
(defmacro with-*defstruct-accessors-iterated ((accessor-function-var *defstruct-name) &body body)
`(dolist (,accessor-function-var (list-of-*defstruct-accessors ,*defstruct-name))
,@body
))
(defmacro with-*defstruct-slot-descriptors-iterated ((slot-descriptor-var *defstruct-name) &body body)
`(dolist (,slot-descriptor-var (list-of-*defstruct-slot-descriptors ,*defstruct-name))
,@body
))
(defun list-of-*defstruct-slot-descriptors (*defstruct-name)
(*defstruct-all-slots-list (get *defstruct-name '*defstruct-structure))
)
(defun list-of-*defstruct-accessors (*defstruct-name)
(let* ((*defstruct-structure (get *defstruct-name '*defstruct-structure))
(slot-accessor-prefix-name (*defstruct-slot-accessor-prefix-name *defstruct-structure))
(slots-list (*defstruct-all-slots-list *defstruct-structure))
)
(mapcar
#'(lambda (slot)
(let ((slot-name (*defstruct-slot-name slot)))
(let ((accessor-function-name
(intern (concatenate
'string
(string slot-accessor-prefix-name)
(string slot-name)
"!!"
)
(symbol-package *defstruct-name)
)))
(when (not (fboundp accessor-function-name))
(error "The accessor function name ~S for *defstruct ~S does not have a function binding"
accessor-function-name *defstruct-name
))
accessor-function-name
)))
slots-list
)))
(defmacro ppme (form)
`(let ((*compilep* t) (*compiling* t)
(*print-gensym* nil) (*print-case* :downcase)
(*print-length* nil) (*print-level* nil)
)
(pprint (macroexpand-1 ',form))
))
(defun non-array-error () (error "You are calling an array function on a non-array pvar"))
(defmacro case-pvar-array ((pvar) general-pvar-form array-pvar-form)
(declare (ignore general-pvar-form))
(assert (symbolp pvar))
`(if (void-pvar-p ,pvar)
(if (any-active-processors?)
(non-array-error)
,pvar
)
,array-pvar-form
))