0.pre7.68:

[sbcl.git] / src / code / loop.lisp

diff --git a/src/code/loop.lisp b/src/code/loop.lisp
index 3ac743c..6b7ce2c 100644 (file)
--- a/src/code/loop.lisp
+++ b/src/code/loop.lisp
@@ -93,76 +93,15 @@
 ;;;; LOOP-PREFER-POP (not true on CMU CL) and which has since been
 ;;;; removed. Thus, STEP-FUNCTION stuff could probably be removed too.
 \f
 ;;;; LOOP-PREFER-POP (not true on CMU CL) and which has since been
 ;;;; removed. Thus, STEP-FUNCTION stuff could probably be removed too.
 \f

-;;;; miscellaneous environment things
-
-(eval-when (:compile-toplevel :load-toplevel :execute)
-  (defvar *loop-real-data-type* 'real))
-
-(eval-when (:compile-toplevel :load-toplevel :execute)
-  (defvar *loop-gentemp* nil)
-  (defun loop-gentemp (&optional (pref 'loopvar-))
-    (if *loop-gentemp*
-      (gentemp (string pref))
-      (gensym))))
-
-;;; @@@@ The following form takes a list of variables and a form which
-;;; presumably references those variables, and wraps it somehow so that the
-;;; compiler does not consider those variables have been referenced. The intent
-;;; of this is that iteration variables can be flagged as unused by the
-;;; compiler, e.g. I in (loop for i from 1 to 10 do (print t)), since we will
-;;; tell it when a usage of it is "invisible" or "not to be considered".
-;;;
-;;; We implicitly assume that a setq does not count as a reference. That is,
-;;; the kind of form generated for the above loop construct to step I,
-;;; simplified, is
-;;;   `(SETQ I ,(HIDE-VARIABLE-REFERENCES '(I) '(1+ I))).
-;;;
-;;; FIXME: This is a no-op except for Genera, now obsolete, so it
-;;; can be removed.
-(defun hide-variable-references (variable-list form)
-  (declare (ignore variable-list))
-  form)
-
-;;; @@@@ The following function takes a flag, a variable, and a form which
-;;; presumably references that variable, and wraps it somehow so that the
-;;; compiler does not consider that variable to have been referenced. The
-;;; intent of this is that iteration variables can be flagged as unused by the
-;;; compiler, e.g. I in (loop for i from 1 to 10 do (print t)), since we will
-;;; tell it when a usage of it is "invisible" or "not to be considered".
-;;;
-;;; We implicitly assume that a setq does not count as a reference. That is,
-;;; the kind of form generated for the above loop construct to step I,
-;;; simplified, is
-;;;   `(SETQ I ,(HIDE-VARIABLE-REFERENCES T 'I '(1+ I))).
-;;;
-;;; Certain cases require that the "invisibility" of the reference be
-;;; conditional upon something. This occurs in cases of "named" variables (the
-;;; USING clause). For instance, we want IDX in (LOOP FOR E BEING THE
-;;; VECTOR-ELEMENTS OF V USING (INDEX IDX) ...) to be "invisible" when it is
-;;; stepped, so that the user gets informed if IDX is not referenced. However,
-;;; if no USING clause is present, we definitely do not want to be informed
-;;; that some gensym or other is not used.
-;;;
-;;; It is easier for the caller to do this conditionally by passing a flag
-;;; (which happens to be the second value of NAMED-VARIABLE, q.v.) to this
-;;; function than for all callers to contain the conditional invisibility
-;;; construction.
-;;;
-;;; FIXME: This is a no-op except for Genera, now obsolete, so it
-;;; can be removed.
-(defun hide-variable-reference (really-hide variable form)
-  (declare (ignore really-hide variable))
-  form)
-\f

 ;;;; list collection macrology
 
 ;;;; list collection macrology
 

-(sb!kernel:defmacro-mundanely with-loop-list-collection-head
+(sb!int:defmacro-mundanely with-loop-list-collection-head

     ((head-var tail-var &optional user-head-var) &body body)
   (let ((l (and user-head-var (list (list user-head-var nil)))))
     `(let* ((,head-var (list nil)) (,tail-var ,head-var) ,@l)
        ,@body)))
 
     ((head-var tail-var &optional user-head-var) &body body)
   (let ((l (and user-head-var (list (list user-head-var nil)))))
     `(let* ((,head-var (list nil)) (,tail-var ,head-var) ,@l)
        ,@body)))
 

-(sb!kernel:defmacro-mundanely loop-collect-rplacd
+(sb!int:defmacro-mundanely loop-collect-rplacd

     (&environment env (head-var tail-var &optional user-head-var) form)
   (setq form (sb!xc:macroexpand form env))
   (flet ((cdr-wrap (form n)
     (&environment env (head-var tail-var &optional user-head-var) form)
   (setq form (sb!xc:macroexpand form env))
   (flet ((cdr-wrap (form n)

@@ -208,7 +147,7 @@
                        (setq ,user-head-var (cdr ,head-var)))))
        answer))))
 
                        (setq ,user-head-var (cdr ,head-var)))))
        answer))))
 

-(sb!kernel:defmacro-mundanely loop-collect-answer (head-var
+(sb!int:defmacro-mundanely loop-collect-answer (head-var

                                                   &optional user-head-var)
   (or user-head-var
       `(cdr ,head-var)))
                                                   &optional user-head-var)
   (or user-head-var
       `(cdr ,head-var)))

@@ -248,13 +187,13 @@ constructed.
 (defun make-loop-minimax (answer-variable type)
   (let ((infinity-data (cdr (assoc type
                                   *loop-minimax-type-infinities-alist*
 (defun make-loop-minimax (answer-variable type)
   (let ((infinity-data (cdr (assoc type
                                   *loop-minimax-type-infinities-alist*

-                                  :test #'subtypep))))
+                                  :test #'sb!xc:subtypep))))

     (make-loop-minimax-internal
       :answer-variable answer-variable
       :type type
     (make-loop-minimax-internal
       :answer-variable answer-variable
       :type type

-      :temp-variable (loop-gentemp 'loop-maxmin-temp-)
+      :temp-variable (gensym "LOOP-MAXMIN-TEMP-")

       :flag-variable (and (not infinity-data)
       :flag-variable (and (not infinity-data)

-                         (loop-gentemp 'loop-maxmin-flag-))
+                         (gensym "LOOP-MAXMIN-FLAG-"))

       :operations nil
       :infinity-data infinity-data)))
 
       :operations nil
       :infinity-data infinity-data)))
 

@@ -263,10 +202,10 @@ constructed.
   (when (and (cdr (loop-minimax-operations minimax))
             (not (loop-minimax-flag-variable minimax)))
     (setf (loop-minimax-flag-variable minimax)
   (when (and (cdr (loop-minimax-operations minimax))
             (not (loop-minimax-flag-variable minimax)))
     (setf (loop-minimax-flag-variable minimax)

-         (loop-gentemp 'loop-maxmin-flag-)))
+         (gensym "LOOP-MAXMIN-FLAG-")))

   operation)
 
   operation)
 

-(sb!kernel:defmacro-mundanely with-minimax-value (lm &body body)
+(sb!int:defmacro-mundanely with-minimax-value (lm &body body)

   (let ((init (loop-typed-init (loop-minimax-type lm)))
        (which (car (loop-minimax-operations lm)))
        (infinity-data (loop-minimax-infinity-data lm))
   (let ((init (loop-typed-init (loop-minimax-type lm)))
        (which (car (loop-minimax-operations lm)))
        (infinity-data (loop-minimax-infinity-data lm))

@@ -285,19 +224,14 @@ constructed.
           (declare (type ,type ,answer-var ,temp-var))
           ,@body))))
 
           (declare (type ,type ,answer-var ,temp-var))
           ,@body))))
 

-(sb!kernel:defmacro-mundanely loop-accumulate-minimax-value (lm
-                                                            operation
-                                                            form)
+(sb!int:defmacro-mundanely loop-accumulate-minimax-value (lm operation form)

   (let* ((answer-var (loop-minimax-answer-variable lm))
         (temp-var (loop-minimax-temp-variable lm))
         (flag-var (loop-minimax-flag-variable lm))
   (let* ((answer-var (loop-minimax-answer-variable lm))
         (temp-var (loop-minimax-temp-variable lm))
         (flag-var (loop-minimax-flag-variable lm))

-        (test
-          (hide-variable-reference
-            t (loop-minimax-answer-variable lm)
-            `(,(ecase operation
-                 (min '<)
-                 (max '>))
-              ,temp-var ,answer-var))))
+        (test `(,(ecase operation
+                   (min '<)
+                   (max '>))
+                ,temp-var ,answer-var)))

     `(progn
        (setq ,temp-var ,form)
        (when ,(if flag-var `(or (not ,flag-var) ,test) test)
     `(progn
        (setq ,temp-var ,form)
        (when ,(if flag-var `(or (not ,flag-var) ,test) test)

@@ -335,7 +269,7 @@ code to be loaded.
   (and (symbolp loop-token)
        (values (gethash (symbol-name loop-token) table))))
 
   (and (symbolp loop-token)
        (values (gethash (symbol-name loop-token) table))))
 

-(sb!kernel:defmacro-mundanely loop-store-table-data (symbol table datum)
+(sb!int:defmacro-mundanely loop-store-table-data (symbol table datum)

   `(setf (gethash (symbol-name ,symbol) ,table) ,datum))
 
 (defstruct (loop-universe
   `(setf (gethash (symbol-name ,symbol) ,table) ,datum))
 
 (defstruct (loop-universe

@@ -394,12 +328,6 @@ code to be loaded.
 \f
 ;;;; SETQ hackery
 
 \f
 ;;;; SETQ hackery
 

-(defvar *loop-destructuring-hooks*
-       nil
-  #!+sb-doc
-  "If not NIL, this must be a list of two things:
-a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.")
-

 (defun loop-make-psetq (frobs)
   (and frobs
        (loop-make-desetq
 (defun loop-make-psetq (frobs)
   (and frobs
        (loop-make-desetq

@@ -411,15 +339,12 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 (defun loop-make-desetq (var-val-pairs)
   (if (null var-val-pairs)
       nil
 (defun loop-make-desetq (var-val-pairs)
   (if (null var-val-pairs)
       nil

-      (cons (if *loop-destructuring-hooks*
-               (cadr *loop-destructuring-hooks*)
-               'loop-really-desetq)
-           var-val-pairs)))
+      (cons 'loop-really-desetq var-val-pairs)))

 
 (defvar *loop-desetq-temporary*
        (make-symbol "LOOP-DESETQ-TEMP"))
 
 
 (defvar *loop-desetq-temporary*
        (make-symbol "LOOP-DESETQ-TEMP"))
 

-(sb!kernel:defmacro-mundanely loop-really-desetq (&environment env
+(sb!int:defmacro-mundanely loop-really-desetq (&environment env

                                                  &rest var-val-pairs)
   (labels ((find-non-null (var)
             ;; see whether there's any non-null thing here
                                                  &rest var-val-pairs)
   (labels ((find-non-null (var)
             ;; see whether there's any non-null thing here

@@ -480,109 +405,103 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 \f
 ;;;; LOOP-local variables
 
 \f
 ;;;; LOOP-local variables
 

-;;;This is the "current" pointer into the LOOP source code.
+;;; This is the "current" pointer into the LOOP source code.

 (defvar *loop-source-code*)
 
 (defvar *loop-source-code*)
 

-;;;This is the pointer to the original, for things like NAMED that
-;;;insist on being in a particular position
+;;; This is the pointer to the original, for things like NAMED that
+;;; insist on being in a particular position

 (defvar *loop-original-source-code*)
 
 (defvar *loop-original-source-code*)
 

-;;;This is *loop-source-code* as of the "last" clause. It is used
-;;;primarily for generating error messages (see loop-error, loop-warn).
+;;; This is *loop-source-code* as of the "last" clause. It is used
+;;; primarily for generating error messages (see loop-error, loop-warn).

 (defvar *loop-source-context*)
 
 (defvar *loop-source-context*)
 

-;;;List of names for the LOOP, supplied by the NAMED clause.
+;;; list of names for the LOOP, supplied by the NAMED clause

 (defvar *loop-names*)
 
 (defvar *loop-names*)
 

-;;;The macroexpansion environment given to the macro.
+;;; The macroexpansion environment given to the macro.

 (defvar *loop-macro-environment*)
 
 (defvar *loop-macro-environment*)
 

-;;;This holds variable names specified with the USING clause.
+;;; This holds variable names specified with the USING clause.

 ;;; See LOOP-NAMED-VARIABLE.
 (defvar *loop-named-variables*)
 
 ;;; LETlist-like list being accumulated for one group of parallel bindings.
 (defvar *loop-variables*)
 
 ;;; See LOOP-NAMED-VARIABLE.
 (defvar *loop-named-variables*)
 
 ;;; LETlist-like list being accumulated for one group of parallel bindings.
 (defvar *loop-variables*)
 

-;;;List of declarations being accumulated in parallel with
-;;;*loop-variables*.
+;;; list of declarations being accumulated in parallel with *LOOP-VARIABLES*

 (defvar *loop-declarations*)
 
 (defvar *loop-declarations*)
 

-;;;Used by LOOP for destructuring binding, if it is doing that itself.
-;;; See loop-make-variable.
+;;; This is used by LOOP for destructuring binding, if it is doing
+;;; that itself. See LOOP-MAKE-VARIABLE.

 (defvar *loop-desetq-crocks*)
 
 (defvar *loop-desetq-crocks*)
 

-;;; List of wrapping forms, innermost first, which go immediately inside
-;;; the current set of parallel bindings being accumulated in
-;;; *loop-variables*. The wrappers are appended onto a body. E.g.,
-;;; this list could conceivably has as its value ((with-open-file (g0001
-;;; g0002 ...))), with g0002 being one of the bindings in
-;;; *loop-variables* (this is why the wrappers go inside of the variable
-;;; bindings).
+;;; list of wrapping forms, innermost first, which go immediately
+;;; inside the current set of parallel bindings being accumulated in
+;;; *LOOP-VARIABLES*. The wrappers are appended onto a body. E.g.,
+;;; this list could conceivably have as its value
+;;;   ((WITH-OPEN-FILE (G0001 G0002 ...))),
+;;; with G0002 being one of the bindings in *LOOP-VARIABLES* (This is
+;;; why the wrappers go inside of the variable bindings).

 (defvar *loop-wrappers*)
 
 (defvar *loop-wrappers*)
 

-;;;This accumulates lists of previous values of *loop-variables* and the
-;;;other lists  above, for each new nesting of bindings. See
-;;;loop-bind-block.
+;;; This accumulates lists of previous values of *LOOP-VARIABLES* and
+;;; the other lists above, for each new nesting of bindings. See
+;;; LOOP-BIND-BLOCK.

 (defvar *loop-bind-stack*)
 
 (defvar *loop-bind-stack*)
 

-;;;This is a LOOP-global variable for the (obsolete) NODECLARE clause
-;;;which inhibits  LOOP from actually outputting a type declaration for
-;;;an iteration (or any) variable.
-(defvar *loop-nodeclare*)
-
-;;;This is simply a list of LOOP iteration variables, used for checking
-;;;for duplications.
+;;; This is simply a list of LOOP iteration variables, used for
+;;; checking for duplications.

 (defvar *loop-iteration-variables*)
 
 (defvar *loop-iteration-variables*)
 

-;;;List of prologue forms of the loop, accumulated in reverse order.
+;;; list of prologue forms of the loop, accumulated in reverse order

 (defvar *loop-prologue*)
 
 (defvar *loop-before-loop*)
 (defvar *loop-body*)
 (defvar *loop-after-body*)
 
 (defvar *loop-prologue*)
 
 (defvar *loop-before-loop*)
 (defvar *loop-body*)
 (defvar *loop-after-body*)
 

-;;;This is T if we have emitted any body code, so that iteration driving
-;;;clauses can be disallowed. This is not strictly the same as
-;;;checking *loop-body*, because we permit some clauses  such as RETURN
-;;;to not be considered "real" body (so as to permit the user to "code"
-;;;an  abnormal return value "in loop").
+;;; This is T if we have emitted any body code, so that iteration
+;;; driving clauses can be disallowed. This is not strictly the same
+;;; as checking *LOOP-BODY*, because we permit some clauses such as
+;;; RETURN to not be considered "real" body (so as to permit the user
+;;; to "code" an abnormal return value "in loop").

 (defvar *loop-emitted-body*)
 
 (defvar *loop-emitted-body*)
 

-;;;List of epilogue forms (supplied by FINALLY generally), accumulated
-;;; in reverse order.
+;;; list of epilogue forms (supplied by FINALLY generally), accumulated
+;;; in reverse order

 (defvar *loop-epilogue*)
 
 (defvar *loop-epilogue*)
 

-;;;List of epilogue forms which are supplied after the above "user"
-;;;epilogue. "normal" termination return values are provide by putting
-;;;the return form in here. Normally this is done using
-;;;loop-emit-final-value, q.v.
+;;; list of epilogue forms which are supplied after the above "user"
+;;; epilogue. "Normal" termination return values are provide by
+;;; putting the return form in here. Normally this is done using
+;;; LOOP-EMIT-FINAL-VALUE, q.v.

 (defvar *loop-after-epilogue*)
 
 (defvar *loop-after-epilogue*)
 

-;;;The "culprit" responsible for supplying a final value from the loop.
-;;;This  is so loop-emit-final-value can moan about multiple return
-;;;values being supplied.
+;;; the "culprit" responsible for supplying a final value from the
+;;; loop. This is so LOOP-EMIT-FINAL-VALUE can moan about multiple
+;;; return values being supplied.

 (defvar *loop-final-value-culprit*)
 
 (defvar *loop-final-value-culprit*)
 

-;;;If not NIL, we are in some branch of a conditional. Some clauses may
-;;;be disallowed.
+;;; If this is true, we are in some branch of a conditional. Some
+;;; clauses may be disallowed.

 (defvar *loop-inside-conditional*)
 
 (defvar *loop-inside-conditional*)
 

-;;;If not NIL, this is a temporary bound around the loop for holding the
-;;;temporary  value for "it" in things like "when (f) collect it". It
-;;;may be used as a supertemporary by some other things.
+;;; If not NIL, this is a temporary bound around the loop for holding
+;;; the temporary value for "it" in things like "when (f) collect it".
+;;; It may be used as a supertemporary by some other things.

 (defvar *loop-when-it-variable*)
 
 (defvar *loop-when-it-variable*)
 

-;;;Sometimes we decide we need to fold together parts of the loop, but
-;;;some part of the generated iteration  code is different for the first
-;;;and remaining iterations. This variable will be the temporary which
-;;;is the flag used in the loop to tell whether we are in the first or
-;;;remaining iterations.
+;;; Sometimes we decide we need to fold together parts of the loop,
+;;; but some part of the generated iteration code is different for the
+;;; first and remaining iterations. This variable will be the
+;;; temporary which is the flag used in the loop to tell whether we
+;;; are in the first or remaining iterations.

 (defvar *loop-never-stepped-variable*)
 
 (defvar *loop-never-stepped-variable*)
 

-;;;List of all the value-accumulation descriptor structures in the loop.
-;;; See loop-get-collection-info.
-(defvar *loop-collection-cruft*)               ; for multiple COLLECTs (etc)
+;;; list of all the value-accumulation descriptor structures in the
+;;; loop. See LOOP-GET-COLLECTION-INFO.
+(defvar *loop-collection-cruft*) ; for multiple COLLECTs (etc.)

 \f
 ;;;; code analysis stuff
 
 \f
 ;;;; code analysis stuff
 

@@ -591,7 +510,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
     (when (setq constantp (constantp new-form))
       (setq constant-value (eval new-form)))
     (when (and constantp expected-type)
     (when (setq constantp (constantp new-form))
       (setq constant-value (eval new-form)))
     (when (and constantp expected-type)

-      (unless (typep constant-value expected-type)
+      (unless (sb!xc:typep constant-value expected-type)

        (loop-warn "The form ~S evaluated to ~S, which was not of the anticipated type ~S."
                   form constant-value expected-type)
        (setq constantp nil constant-value nil)))
        (loop-warn "The form ~S evaluated to ~S, which was not of the anticipated type ~S."
                   form constant-value expected-type)
        (setq constantp nil constant-value nil)))

@@ -610,15 +529,16 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 
 (defun loop-code-duplication-threshold (env)
   (declare (ignore env))
 
 (defun loop-code-duplication-threshold (env)
   (declare (ignore env))

-  (let (;; If we could read optimization declaration information (as with
-       ;; the DECLARATION-INFORMATION function (present in CLTL2, removed
-       ;; from ANSI standard) we could set these values flexibly. Without
-       ;; DECLARATION-INFORMATION, we have to set them to constants.
+  (let (;; If we could read optimization declaration information (as
+       ;; with the DECLARATION-INFORMATION function (present in
+       ;; CLTL2, removed from ANSI standard) we could set these
+       ;; values flexibly. Without DECLARATION-INFORMATION, we have
+       ;; to set them to constants.

        (speed 1)
        (space 1))
     (+ 40 (* (- speed space) 10))))
 
        (speed 1)
        (space 1))
     (+ 40 (* (- speed space) 10))))
 

-(sb!kernel:defmacro-mundanely loop-body (&environment env
+(sb!int:defmacro-mundanely loop-body (&environment env

                                         prologue
                                         before-loop
                                         main-body
                                         prologue
                                         before-loop
                                         main-body

@@ -652,26 +572,27 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
     (when (or *loop-duplicate-code* (not rbefore))
       (return-from loop-body (makebody)))
     ;; This outer loop iterates once for each not-first-time flag test
     (when (or *loop-duplicate-code* (not rbefore))
       (return-from loop-body (makebody)))
     ;; This outer loop iterates once for each not-first-time flag test

-    ;; generated plus once more for the forms that don't need a flag test
+    ;; generated plus once more for the forms that don't need a flag test.

     (do ((threshold (loop-code-duplication-threshold env))) (nil)
       (declare (fixnum threshold))
     (do ((threshold (loop-code-duplication-threshold env))) (nil)
       (declare (fixnum threshold))

-      ;; Go backwards from the ends of before-loop and after-loop merging all
-      ;; the equivalent forms into the body.
+      ;; Go backwards from the ends of before-loop and after-loop
+      ;; merging all the equivalent forms into the body.

       (do () ((or (null rbefore) (not (equal (car rbefore) (car rafter)))))
        (push (pop rbefore) main-body)
        (pop rafter))
       (unless rbefore (return (makebody)))
       (do () ((or (null rbefore) (not (equal (car rbefore) (car rafter)))))
        (push (pop rbefore) main-body)
        (pop rafter))
       (unless rbefore (return (makebody)))

-      ;; The first forms in rbefore & rafter (which are the chronologically
-      ;; last forms in the list) differ, therefore they cannot be moved
-      ;; into the main body. If everything that chronologically precedes
-      ;; them either differs or is equal but is okay to duplicate, we can
-      ;; just put all of rbefore in the prologue and all of rafter after
-      ;; the body. Otherwise, there is something that is not okay to
-      ;; duplicate, so it and everything chronologically after it in
-      ;; rbefore and rafter must go into the body, with a flag test to
-      ;; distinguish the first time around the loop from later times.
-      ;; What chronologically precedes the non-duplicatable form will
-      ;; be handled the next time around the outer loop.
+      ;; The first forms in RBEFORE & RAFTER (which are the
+      ;; chronologically last forms in the list) differ, therefore
+      ;; they cannot be moved into the main body. If everything that
+      ;; chronologically precedes them either differs or is equal but
+      ;; is okay to duplicate, we can just put all of rbefore in the
+      ;; prologue and all of rafter after the body. Otherwise, there
+      ;; is something that is not okay to duplicate, so it and
+      ;; everything chronologically after it in rbefore and rafter
+      ;; must go into the body, with a flag test to distinguish the
+      ;; first time around the loop from later times. What
+      ;; chronologically precedes the non-duplicatable form will be
+      ;; handled the next time around the outer loop.

       (do ((bb rbefore (cdr bb))
           (aa rafter (cdr aa))
           (lastdiff nil)
       (do ((bb rbefore (cdr bb))
           (aa rafter (cdr aa))
           (lastdiff nil)

@@ -682,9 +603,10 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
              ((or (not (setq inc (estimate-code-size (car bb) env)))
                   (> (incf count inc) threshold))
               ;; Ok, we have found a non-duplicatable piece of code.
              ((or (not (setq inc (estimate-code-size (car bb) env)))
                   (> (incf count inc) threshold))
               ;; Ok, we have found a non-duplicatable piece of code.

-              ;; Everything chronologically after it must be in the central
-              ;; body. Everything chronologically at and after lastdiff goes
-              ;; into the central body under a flag test.
+              ;; Everything chronologically after it must be in the
+              ;; central body. Everything chronologically at and
+              ;; after LASTDIFF goes into the central body under a
+              ;; flag test.

               (let ((then nil) (else nil))
                 (do () (nil)
                   (push (pop rbefore) else)
               (let ((then nil) (else nil))
                 (do () (nil)
                   (push (pop rbefore) else)

@@ -697,8 +619,8 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                 (push `(if ,flagvar ,(pify (psimp then)) ,(pify (psimp else)))
                       main-body))
               ;; Everything chronologically before lastdiff until the
                 (push `(if ,flagvar ,(pify (psimp then)) ,(pify (psimp else)))
                       main-body))
               ;; Everything chronologically before lastdiff until the

-              ;; non-duplicatable form (car bb) is the same in rbefore and
-              ;; rafter so just copy it into the body
+              ;; non-duplicatable form (CAR BB) is the same in
+              ;; RBEFORE and RAFTER, so just copy it into the body.

               (do () (nil)
                 (pop rafter)
                 (push (pop rbefore) main-body)
               (do () (nil)
                 (pop rafter)
                 (push (pop rbefore) main-body)

@@ -709,9 +631,9 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
   (if (null expr) 0
       (let ((ans (estimate-code-size expr env)))
        (declare (fixnum ans))
   (if (null expr) 0
       (let ((ans (estimate-code-size expr env)))
        (declare (fixnum ans))

-       ;; @@@@ Use (DECLARATION-INFORMATION 'OPTIMIZE ENV) here to get an
-       ;; alist of optimize quantities back to help quantify how much code we
-       ;; are willing to duplicate.
+       ;; @@@@ Use (DECLARATION-INFORMATION 'OPTIMIZE ENV) here to
+       ;; get an alist of optimize quantities back to help quantify
+       ;; how much code we are willing to duplicate.

        ans)))
 
 (defvar *special-code-sizes*
        ans)))
 
 (defvar *special-code-sizes*

@@ -830,7 +752,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                             &optional (default-type required-type))
   (if (null specified-type)
       default-type
                             &optional (default-type required-type))
   (if (null specified-type)
       default-type

-      (multiple-value-bind (a b) (subtypep specified-type required-type)
+      (multiple-value-bind (a b) (sb!xc:subtypep specified-type required-type)

        (cond ((not b)
               (loop-warn "LOOP couldn't verify that ~S is a subtype of the required type ~S."
                          specified-type required-type))
        (cond ((not b)
               (loop-warn "LOOP couldn't verify that ~S is a subtype of the required type ~S."
                          specified-type required-type))

@@ -839,6 +761,12 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                           specified-type required-type)))
        specified-type)))
 \f
                           specified-type required-type)))
        specified-type)))
 \f

+(defun loop-build-destructuring-bindings (crocks forms)
+  (if crocks
+      `((destructuring-bind ,(car crocks) ,(cadr crocks)
+        ,@(loop-build-destructuring-bindings (cddr crocks) forms)))
+      forms))
+

 (defun loop-translate (*loop-source-code*
                       *loop-macro-environment*
                       *loop-universe*)
 (defun loop-translate (*loop-source-code*
                       *loop-macro-environment*
                       *loop-universe*)

@@ -846,7 +774,6 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
        (*loop-source-context* nil)
        (*loop-iteration-variables* nil)
        (*loop-variables* nil)
        (*loop-source-context* nil)
        (*loop-iteration-variables* nil)
        (*loop-variables* nil)

-       (*loop-nodeclare* nil)

        (*loop-named-variables* nil)
        (*loop-declarations* nil)
        (*loop-desetq-crocks* nil)
        (*loop-named-variables* nil)
        (*loop-declarations* nil)
        (*loop-desetq-crocks* nil)

@@ -888,16 +815,10 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
            (let ((forms (list answer)))
              ;;(when crocks (push crocks forms))
              (when dcls (push `(declare ,@dcls) forms))
            (let ((forms (list answer)))
              ;;(when crocks (push crocks forms))
              (when dcls (push `(declare ,@dcls) forms))

-             (setq answer `(,(cond ((not vars) 'locally)
-                                   (*loop-destructuring-hooks*
-                                    (first *loop-destructuring-hooks*))
-                                   (t
-                                    'let))
+             (setq answer `(,(if vars 'let 'locally)

                             ,vars
                             ,vars

-                            ,@(if crocks
-                                  `((destructuring-bind ,@crocks
-                                        ,@forms))
-                                forms)))))))
+                            ,@(loop-build-destructuring-bindings crocks
+                                                                 forms)))))))

       answer)))
 
 (defun loop-iteration-driver ()
       answer)))
 
 (defun loop-iteration-driver ()

@@ -932,17 +853,25 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
       (pop *loop-source-code*)
       (loop-error "LOOP source code ran out when another token was expected.")))
 
       (pop *loop-source-code*)
       (loop-error "LOOP source code ran out when another token was expected.")))
 

-(defun loop-get-progn ()
-  (do ((forms (list (loop-pop-source)) (cons (loop-pop-source) forms))
-       (nextform (car *loop-source-code*) (car *loop-source-code*)))
-      ((atom nextform)
-       (if (null (cdr forms)) (car forms) (cons 'progn (nreverse forms))))))
-

 (defun loop-get-form ()
   (if *loop-source-code*
       (loop-pop-source)
       (loop-error "LOOP code ran out where a form was expected.")))
 
 (defun loop-get-form ()
   (if *loop-source-code*
       (loop-pop-source)
       (loop-error "LOOP code ran out where a form was expected.")))
 

+(defun loop-get-compound-form ()
+  (let ((form (loop-get-form)))
+    (unless (consp form)
+      (loop-error "A compound form was expected, but ~S found." form))
+    form))
+
+(defun loop-get-progn ()
+  (do ((forms (list (loop-get-compound-form))
+              (cons (loop-get-compound-form) forms))
+       (nextform (car *loop-source-code*)
+                 (car *loop-source-code*)))
+      ((atom nextform)
+       (if (null (cdr forms)) (car forms) (cons 'progn (nreverse forms))))))
+

 (defun loop-construct-return (form)
   `(return-from ,(car *loop-names*) ,form))
 
 (defun loop-construct-return (form)
   `(return-from ,(car *loop-names*) ,form))
 

@@ -970,8 +899,9 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 ;;;; loop types
 
 (defun loop-typed-init (data-type)
 ;;;; loop types
 
 (defun loop-typed-init (data-type)

-  (when (and data-type (subtypep data-type 'number))
-    (if (or (subtypep data-type 'float) (subtypep data-type '(complex float)))
+  (when (and data-type (sb!xc:subtypep data-type 'number))
+    (if (or (sb!xc:subtypep data-type 'float)
+           (sb!xc:subtypep data-type '(complex float)))

        (coerce 0 data-type)
        0)))
 
        (coerce 0 data-type)
        0)))
 

@@ -980,17 +910,18 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
   (and *loop-source-code* ; Don't get confused by NILs..
        (let ((z (car *loop-source-code*)))
         (cond ((loop-tequal z 'of-type)
   (and *loop-source-code* ; Don't get confused by NILs..
        (let ((z (car *loop-source-code*)))
         (cond ((loop-tequal z 'of-type)

-               ;; This is the syntactically unambigous form in that the form
-               ;; of the type specifier does not matter. Also, it is assumed
-               ;; that the type specifier is unambiguously, and without need
-               ;; of translation, a common lisp type specifier or pattern
-               ;; (matching the variable) thereof.
+               ;; This is the syntactically unambigous form in that
+               ;; the form of the type specifier does not matter.
+               ;; Also, it is assumed that the type specifier is
+               ;; unambiguously, and without need of translation, a
+               ;; common lisp type specifier or pattern (matching the
+               ;; variable) thereof.

                (loop-pop-source)
                (loop-pop-source))
 
               ((symbolp z)
                (loop-pop-source)
                (loop-pop-source))
 
               ((symbolp z)

-               ;; This is the (sort of) "old" syntax, even though we didn't
-               ;; used to support all of these type symbols.
+               ;; This is the (sort of) "old" syntax, even though we
+               ;; didn't used to support all of these type symbols.

                (let ((type-spec (or (gethash z
                                              (loop-universe-type-symbols
                                               *loop-universe*))
                (let ((type-spec (or (gethash z
                                              (loop-universe-type-symbols
                                               *loop-universe*))

@@ -1001,11 +932,12 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                    (loop-pop-source)
                    type-spec)))
               (t
                    (loop-pop-source)
                    type-spec)))
               (t

-               ;; This is our sort-of old syntax. But this is only valid for
-               ;; when we are destructuring, so we will be compulsive (should
-               ;; we really be?) and require that we in fact be doing variable
-               ;; destructuring here. We must translate the old keyword
-               ;; pattern typespec into a fully-specified pattern of real type
+               ;; This is our sort-of old syntax. But this is only
+               ;; valid for when we are destructuring, so we will be
+               ;; compulsive (should we really be?) and require that
+               ;; we in fact be doing variable destructuring here. We
+               ;; must translate the old keyword pattern typespec
+               ;; into a fully-specified pattern of real type

                ;; specifiers here.
                (if (consp variable)
                    (unless (consp z)
                ;; specifiers here.
                (if (consp variable)
                    (unless (consp z)

@@ -1059,7 +991,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                           &optional iteration-variable-p)
   (cond ((null name)
         (cond ((not (null initialization))
                           &optional iteration-variable-p)
   (cond ((null name)
         (cond ((not (null initialization))

-               (push (list (setq name (loop-gentemp 'loop-ignore-))
+               (push (list (setq name (gensym "LOOP-IGNORE-"))

                            initialization)
                      *loop-variables*)
                (push `(ignore ,name) *loop-declarations*))))
                            initialization)
                      *loop-variables*)
                (push `(ignore ,name) *loop-declarations*))))

@@ -1079,20 +1011,12 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
         (push (list name (or initialization (loop-typed-init dtype)))
               *loop-variables*))
        (initialization
         (push (list name (or initialization (loop-typed-init dtype)))
               *loop-variables*))
        (initialization

-        (cond (*loop-destructuring-hooks*
-               (loop-declare-variable name dtype)
-               (push (list name initialization) *loop-variables*))
-              (t (let ((newvar (loop-gentemp 'loop-destructure-)))
-                   (push (list newvar initialization) *loop-variables*)
-                   ;; *LOOP-DESETQ-CROCKS* gathered in reverse order.
-                   (setq *loop-desetq-crocks*
-                     (list* name newvar *loop-desetq-crocks*))
-                   ;; FIXME: We can delete this, right?
-                   #+ignore
-                   (loop-make-variable name
-                                       nil
-                                       dtype
-                                       iteration-variable-p)))))
+        (let ((newvar (gensym "LOOP-DESTRUCTURE-")))
+           (loop-declare-variable name dtype)
+           (push (list newvar initialization) *loop-variables*)
+           ;; *LOOP-DESETQ-CROCKS* gathered in reverse order.
+           (setq *loop-desetq-crocks*
+                 (list* name newvar *loop-desetq-crocks*))))

        (t (let ((tcar nil) (tcdr nil))
             (if (atom dtype) (setq tcar (setq tcdr dtype))
                 (setq tcar (car dtype) tcdr (cdr dtype)))
        (t (let ((tcar nil) (tcdr nil))
             (if (atom dtype) (setq tcar (setq tcdr dtype))
                 (setq tcar (car dtype) tcdr (cdr dtype)))

@@ -1106,11 +1030,11 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 (defun loop-declare-variable (name dtype)
   (cond ((or (null name) (null dtype) (eq dtype t)) nil)
        ((symbolp name)
 (defun loop-declare-variable (name dtype)
   (cond ((or (null name) (null dtype) (eq dtype t)) nil)
        ((symbolp name)

-        (unless (or (eq dtype t) (member (the symbol name) *loop-nodeclare*))
+        (unless (sb!xc:subtypep t dtype)

           (let ((dtype (let ((init (loop-typed-init dtype)))
           (let ((dtype (let ((init (loop-typed-init dtype)))

-                         (if (typep init dtype)
-                           dtype
-                           `(or (member ,init) ,dtype)))))
+                         (if (sb!xc:typep init dtype)
+                             dtype
+                             `(or (member ,init) ,dtype)))))

             (push `(type ,dtype ,name) *loop-declarations*))))
        ((consp name)
         (cond ((consp dtype)
             (push `(type ,dtype ,name) *loop-declarations*))))
        ((consp name)
         (cond ((consp dtype)

@@ -1123,7 +1047,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 (defun loop-maybe-bind-form (form data-type)
   (if (loop-constantp form)
       form
 (defun loop-maybe-bind-form (form data-type)
   (if (loop-constantp form)
       form

-      (loop-make-variable (loop-gentemp 'loop-bind-) form data-type)))
+      (loop-make-variable (gensym "LOOP-BIND-") form data-type)))

 \f
 (defun loop-do-if (for negatep)
   (let ((form (loop-get-form)) (*loop-inside-conditional* t) (it-p nil))
 \f
 (defun loop-do-if (for negatep)
   (let ((form (loop-get-form)) (*loop-inside-conditional* t) (it-p nil))

@@ -1243,8 +1167,8 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
     (let ((tempvars (loop-collector-tempvars lc)))
       (unless tempvars
        (setf (loop-collector-tempvars lc)
     (let ((tempvars (loop-collector-tempvars lc)))
       (unless tempvars
        (setf (loop-collector-tempvars lc)

-             (setq tempvars (list* (loop-gentemp 'loop-list-head-)
-                                   (loop-gentemp 'loop-list-tail-)
+             (setq tempvars (list* (gensym "LOOP-LIST-HEAD-")
+                                   (gensym "LOOP-LIST-TAIL-")

                                    (and (loop-collector-name lc)
                                         (list (loop-collector-name lc))))))
        (push `(with-loop-list-collection-head ,tempvars) *loop-wrappers*)
                                    (and (loop-collector-name lc)
                                         (list (loop-collector-name lc))))))
        (push `(with-loop-list-collection-head ,tempvars) *loop-wrappers*)

@@ -1269,7 +1193,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
        (setf (loop-collector-tempvars lc)
              (setq tempvars (list (loop-make-variable
                                     (or (loop-collector-name lc)
        (setf (loop-collector-tempvars lc)
              (setq tempvars (list (loop-make-variable
                                     (or (loop-collector-name lc)

-                                        (loop-gentemp 'loop-sum-))
+                                        (gensym "LOOP-SUM-"))

                                     nil (loop-collector-dtype lc)))))
        (unless (loop-collector-name lc)
          (loop-emit-final-value (car (loop-collector-tempvars lc)))))
                                     nil (loop-collector-dtype lc)))))
        (unless (loop-collector-name lc)
          (loop-emit-final-value (car (loop-collector-tempvars lc)))))

@@ -1277,25 +1201,21 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
        (if (eq specifically 'count)
            `(when ,form
               (setq ,(car tempvars)
        (if (eq specifically 'count)
            `(when ,form
               (setq ,(car tempvars)

-                    ,(hide-variable-reference t
-                                              (car tempvars)
-                                              `(1+ ,(car tempvars)))))
+                    (1+ ,(car tempvars))))

            `(setq ,(car tempvars)
            `(setq ,(car tempvars)

-                  (+ ,(hide-variable-reference t
-                                               (car tempvars)
-                                               (car tempvars))
+                  (+ ,(car tempvars)

                      ,form)))))))
 
 (defun loop-maxmin-collection (specifically)
   (multiple-value-bind (lc form)
                      ,form)))))))
 
 (defun loop-maxmin-collection (specifically)
   (multiple-value-bind (lc form)

-      (loop-get-collection-info specifically 'maxmin *loop-real-data-type*)
-    (loop-check-data-type (loop-collector-dtype lc) *loop-real-data-type*)
+      (loop-get-collection-info specifically 'maxmin 'real)
+    (loop-check-data-type (loop-collector-dtype lc) 'real)

     (let ((data (loop-collector-data lc)))
       (unless data
        (setf (loop-collector-data lc)
              (setq data (make-loop-minimax
                           (or (loop-collector-name lc)
     (let ((data (loop-collector-data lc)))
       (unless data
        (setf (loop-collector-data lc)
              (setq data (make-loop-minimax
                           (or (loop-collector-name lc)

-                              (loop-gentemp 'loop-maxmin-))
+                              (gensym "LOOP-MAXMIN-"))

                           (loop-collector-dtype lc))))
        (unless (loop-collector-name lc)
          (loop-emit-final-value (loop-minimax-answer-variable data))))
                           (loop-collector-dtype lc))))
        (unless (loop-collector-name lc)
          (loop-emit-final-value (loop-minimax-answer-variable data))))

@@ -1433,13 +1353,15 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 (defun loop-do-repeat ()
   (let ((form (loop-get-form))
        (type (loop-check-data-type (loop-optional-type)
 (defun loop-do-repeat ()
   (let ((form (loop-get-form))
        (type (loop-check-data-type (loop-optional-type)

-                                   *loop-real-data-type*)))
-    (when (and (consp form) (eq (car form) 'the) (subtypep (second form) type))
+                                   'real)))
+    (when (and (consp form)
+              (eq (car form) 'the)
+              (sb!xc:subtypep (second form) type))

       (setq type (second form)))
     (multiple-value-bind (number constantp value)
        (loop-constant-fold-if-possible form type)
       (cond ((and constantp (<= value 1)) `(t () () () ,(<= value 0) () () ()))
       (setq type (second form)))
     (multiple-value-bind (number constantp value)
        (loop-constant-fold-if-possible form type)
       (cond ((and constantp (<= value 1)) `(t () () () ,(<= value 0) () () ()))

-           (t (let ((var (loop-make-variable (loop-gentemp 'loop-repeat-)
+           (t (let ((var (loop-make-variable (gensym "LOOP-REPEAT-")

                                              number
                                              type)))
                 (if constantp
                                              number
                                              type)))
                 (if constantp

@@ -1451,15 +1373,15 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 (defun loop-when-it-variable ()
   (or *loop-when-it-variable*
       (setq *loop-when-it-variable*
 (defun loop-when-it-variable ()
   (or *loop-when-it-variable*
       (setq *loop-when-it-variable*

-           (loop-make-variable (loop-gentemp 'loop-it-) nil nil))))
+           (loop-make-variable (gensym "LOOP-IT-") nil nil))))

 \f
 ;;;; various FOR/AS subdispatches
 
 \f
 ;;;; various FOR/AS subdispatches
 

-;;; ANSI "FOR x = y [THEN z]" is sort of like the old Genera one when the THEN
-;;; is omitted (other than being more stringent in its placement), and like the
-;;; old "FOR x FIRST y THEN z" when the THEN is present. I.e., the first
-;;; initialization occurs in the loop body (first-step), not in the variable
-;;; binding phase.
+;;; ANSI "FOR x = y [THEN z]" is sort of like the old Genera one when
+;;; the THEN is omitted (other than being more stringent in its
+;;; placement), and like the old "FOR x FIRST y THEN z" when the THEN
+;;; is present. I.e., the first initialization occurs in the loop body
+;;; (first-step), not in the variable binding phase.

 (defun loop-ansi-for-equals (var val data-type)
   (loop-make-iteration-variable var nil data-type)
   (cond ((loop-tequal (car *loop-source-code*) :then)
 (defun loop-ansi-for-equals (var val data-type)
   (loop-make-iteration-variable var nil data-type)
   (cond ((loop-tequal (car *loop-source-code*) :then)

@@ -1472,8 +1394,8 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 
 (defun loop-for-across (var val data-type)
   (loop-make-iteration-variable var nil data-type)
 
 (defun loop-for-across (var val data-type)
   (loop-make-iteration-variable var nil data-type)

-  (let ((vector-var (loop-gentemp 'loop-across-vector-))
-       (index-var (loop-gentemp 'loop-across-index-)))
+  (let ((vector-var (gensym "LOOP-ACROSS-VECTOR-"))
+       (index-var (gensym "LOOP-ACROSS-INDEX-")))

     (multiple-value-bind (vector-form constantp vector-value)
        (loop-constant-fold-if-possible val 'vector)
       (loop-make-variable
     (multiple-value-bind (vector-form constantp vector-value)
        (loop-constant-fold-if-possible val 'vector)
       (loop-make-variable

@@ -1484,7 +1406,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
       (loop-make-variable index-var 0 'fixnum)
       (let* ((length 0)
             (length-form (cond ((not constantp)
       (loop-make-variable index-var 0 'fixnum)
       (let* ((length 0)
             (length-form (cond ((not constantp)

-                                (let ((v (loop-gentemp 'loop-across-limit-)))
+                                (let ((v (gensym "LOOP-ACROSS-LIMIT-")))

                                   (push `(setq ,v (length ,vector-var))
                                         *loop-prologue*)
                                   (loop-make-variable v 0 'fixnum)))
                                   (push `(setq ,v (length ,vector-var))
                                         *loop-prologue*)
                                   (loop-make-variable v 0 'fixnum)))

@@ -1505,9 +1427,9 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 ;;;; list iteration
 
 (defun loop-list-step (listvar)
 ;;;; list iteration
 
 (defun loop-list-step (listvar)

-  ;; We are not equipped to analyze whether 'FOO is the same as #'FOO here in
-  ;; any sensible fashion, so let's give an obnoxious warning whenever 'FOO is
-  ;; used as the stepping function.
+  ;; We are not equipped to analyze whether 'FOO is the same as #'FOO
+  ;; here in any sensible fashion, so let's give an obnoxious warning
+  ;; whenever 'FOO is used as the stepping function.

   ;;
   ;; While a Discerning Compiler may deal intelligently with
   ;; (FUNCALL 'FOO ...), not recognizing FOO may defeat some LOOP
   ;;
   ;; While a Discerning Compiler may deal intelligently with
   ;; (FUNCALL 'FOO ...), not recognizing FOO may defeat some LOOP

@@ -1522,7 +1444,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
          ((and (consp stepper) (eq (car stepper) 'function))
           (list (cadr stepper) listvar))
          (t
          ((and (consp stepper) (eq (car stepper) 'function))
           (list (cadr stepper) listvar))
          (t

-          `(funcall ,(loop-make-variable (loop-gentemp 'loop-fn-)
+          `(funcall ,(loop-make-variable (gensym "LOOP-FN-")

                                          stepper
                                          'function)
                     ,listvar)))))
                                          stepper
                                          'function)
                     ,listvar)))))

@@ -1533,23 +1455,21 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
     (let ((listvar var))
       (cond ((and var (symbolp var))
             (loop-make-iteration-variable var list data-type))
     (let ((listvar var))
       (cond ((and var (symbolp var))
             (loop-make-iteration-variable var list data-type))

-           (t (loop-make-variable (setq listvar (loop-gentemp)) list 'list)
+           (t (loop-make-variable (setq listvar (gensym)) list 'list)

               (loop-make-iteration-variable var nil data-type)))
       (let ((list-step (loop-list-step listvar)))
        (let* ((first-endtest
               (loop-make-iteration-variable var nil data-type)))
       (let ((list-step (loop-list-step listvar)))
        (let* ((first-endtest

-               (hide-variable-reference
-                (eq var listvar)
-                listvar
-                ;; the following should use `atom' instead of `endp', per
-                ;; [bug2428]
-                `(atom ,listvar)))
+               ;; mysterious comment from original CMU CL sources:
+               ;;   the following should use `atom' instead of `endp',
+               ;;   per [bug2428]
+               `(atom ,listvar))

               (other-endtest first-endtest))
          (when (and constantp (listp list-value))
            (setq first-endtest (null list-value)))
          (cond ((eq var listvar)
               (other-endtest first-endtest))
          (when (and constantp (listp list-value))
            (setq first-endtest (null list-value)))
          (cond ((eq var listvar)

-                ;; Contour of the loop is different because we use the user's
-                ;; variable...
-                `(() (,listvar ,(hide-variable-reference t listvar list-step))
+                ;; The contour of the loop is different because we
+                ;; use the user's variable...
+                `(() (,listvar ,list-step)

                   ,other-endtest () () () ,first-endtest ()))
                (t (let ((step `(,var ,listvar))
                         (pseudo `(,listvar ,list-step)))
                   ,other-endtest () () () ,first-endtest ()))
                (t (let ((step `(,var ,listvar))
                         (pseudo `(,listvar ,list-step)))

@@ -1560,7 +1480,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 (defun loop-for-in (var val data-type)
   (multiple-value-bind (list constantp list-value)
       (loop-constant-fold-if-possible val)
 (defun loop-for-in (var val data-type)
   (multiple-value-bind (list constantp list-value)
       (loop-constant-fold-if-possible val)

-    (let ((listvar (loop-gentemp 'loop-list-)))
+    (let ((listvar (gensym "LOOP-LIST-")))

       (loop-make-iteration-variable var nil data-type)
       (loop-make-variable listvar list 'list)
       (let ((list-step (loop-list-step listvar)))
       (loop-make-iteration-variable var nil data-type)
       (loop-make-variable listvar list 'list)
       (let ((list-step (loop-list-step listvar)))

@@ -1645,8 +1565,8 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                      (apply fun var data-type preps user-data))))
     (when *loop-named-variables*
       (loop-error "Unused USING variables: ~S." *loop-named-variables*))
                      (apply fun var data-type preps user-data))))
     (when *loop-named-variables*
       (loop-error "Unused USING variables: ~S." *loop-named-variables*))

-    ;; STUFF is now (bindings prologue-forms . stuff-to-pass-back). Protect the
-    ;; system from the user and the user from himself.
+    ;; STUFF is now (bindings prologue-forms . stuff-to-pass-back).
+    ;; Protect the system from the user and the user from himself.

     (unless (member (length stuff) '(6 10))
       (loop-error "Value passed back by LOOP iteration path function for path ~S has invalid length."
                  path))
     (unless (member (length stuff) '(6 10))
       (loop-error "Value passed back by LOOP iteration path function for path ~S has invalid length."
                  path))

@@ -1660,7 +1580,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 (defun named-variable (name)
   (let ((tem (loop-tassoc name *loop-named-variables*)))
     (declare (list tem))
 (defun named-variable (name)
   (let ((tem (loop-tassoc name *loop-named-variables*)))
     (declare (list tem))

-    (cond ((null tem) (values (loop-gentemp) nil))
+    (cond ((null tem) (values (gensym) nil))

          (t (setq *loop-named-variables* (delete tem *loop-named-variables*))
             (values (cdr tem) t)))))
 
          (t (setq *loop-named-variables* (delete tem *loop-named-variables*))
             (values (cdr tem) t)))))
 

@@ -1720,11 +1640,11 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 \f
 ;;;; master sequencer function
 
 \f
 ;;;; master sequencer function
 

-(defun loop-sequencer (indexv indexv-type indexv-user-specified-p
-                         variable variable-type
-                         sequence-variable sequence-type
-                         step-hack default-top
-                         prep-phrases)
+(defun loop-sequencer (indexv indexv-type 
+                      variable variable-type
+                      sequence-variable sequence-type
+                      step-hack default-top
+                      prep-phrases)

    (let ((endform nil) ; Form (constant or variable) with limit value
         (sequencep nil) ; T if sequence arg has been provided
         (testfn nil) ; endtest function
    (let ((endform nil) ; Form (constant or variable) with limit value
         (sequencep nil) ; T if sequence arg has been provided
         (testfn nil) ; endtest function

@@ -1769,12 +1689,12 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
          (setq endform (if limit-constantp
                            `',limit-value
                            (loop-make-variable
          (setq endform (if limit-constantp
                            `',limit-value
                            (loop-make-variable

-                             (loop-gentemp 'loop-limit-) form indexv-type))))
+                             (gensym "LOOP-LIMIT-") form indexv-type))))

         (:by
           (multiple-value-setq (form stepby-constantp stepby)
             (loop-constant-fold-if-possible form indexv-type))
           (unless stepby-constantp
         (:by
           (multiple-value-setq (form stepby-constantp stepby)
             (loop-constant-fold-if-possible form indexv-type))
           (unless stepby-constantp

-            (loop-make-variable (setq stepby (loop-gentemp 'loop-step-by-))
+            (loop-make-variable (setq stepby (gensym "LOOP-STEP-BY-"))

                                 form
                                 indexv-type)))
         (t (loop-error
                                 form
                                 indexv-type)))
         (t (loop-error

@@ -1797,7 +1717,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
            (when (or limit-given default-top)
              (unless limit-given
                (loop-make-variable (setq endform
            (when (or limit-given default-top)
              (unless limit-given
                (loop-make-variable (setq endform

-                                         (loop-gentemp 'loop-seq-limit-))
+                                         (gensym "LOOP-SEQ-LIMIT-"))

                                    nil indexv-type)
                (push `(setq ,endform ,default-top) *loop-prologue*))
              (setq testfn (if inclusive-iteration '> '>=)))
                                    nil indexv-type)
                (push `(setq ,endform ,default-top) *loop-prologue*))
              (setq testfn (if inclusive-iteration '> '>=)))

@@ -1814,12 +1734,10 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                    (if (eql stepby 1) `(1- ,indexv) `(- ,indexv ,stepby)))))
      (when testfn
        (setq test
                    (if (eql stepby 1) `(1- ,indexv) `(- ,indexv ,stepby)))))
      (when testfn
        (setq test

-            (hide-variable-reference t indexv `(,testfn ,indexv ,endform))))
+            `(,testfn ,indexv ,endform)))

      (when step-hack
        (setq step-hack
      (when step-hack
        (setq step-hack

-            `(,variable ,(hide-variable-reference indexv-user-specified-p
-                                                  indexv
-                                                  step-hack))))
+            `(,variable ,step-hack)))

      (let ((first-test test) (remaining-tests test))
        (when (and stepby-constantp start-constantp limit-constantp)
         (when (setq first-test
      (let ((first-test test) (remaining-tests test))
        (when (and stepby-constantp start-constantp limit-constantp)
         (when (setq first-test

@@ -1827,18 +1745,18 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                              start-value
                              limit-value))
           (setq remaining-tests t)))
                              start-value
                              limit-value))
           (setq remaining-tests t)))

-       `(() (,indexv ,(hide-variable-reference t indexv step))
+       `(() (,indexv ,step)

         ,remaining-tests ,step-hack () () ,first-test ,step-hack))))
 \f
 ;;;; interfaces to the master sequencer
 
 (defun loop-for-arithmetic (var val data-type kwd)
   (loop-sequencer
         ,remaining-tests ,step-hack () () ,first-test ,step-hack))))
 \f
 ;;;; interfaces to the master sequencer
 
 (defun loop-for-arithmetic (var val data-type kwd)
   (loop-sequencer

-    var (loop-check-data-type data-type *loop-real-data-type*) t
-    nil nil nil nil nil nil
-    (loop-collect-prepositional-phrases
-      '((:from :upfrom :downfrom) (:to :upto :downto :above :below) (:by))
-      nil (list (list kwd val)))))
+   var (loop-check-data-type data-type 'real)
+   nil nil nil nil nil nil
+   (loop-collect-prepositional-phrases
+    '((:from :upfrom :downfrom) (:to :upto :downto :above :below) (:by))
+    nil (list (list kwd val)))))

 
 (defun loop-sequence-elements-path (variable data-type prep-phrases
                                    &key
 
 (defun loop-sequence-elements-path (variable data-type prep-phrases
                                    &key

@@ -1846,16 +1764,16 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                                    size-function
                                    sequence-type
                                    element-type)
                                    size-function
                                    sequence-type
                                    element-type)

-  (multiple-value-bind (indexv indexv-user-specified-p) (named-variable 'index)
+  (multiple-value-bind (indexv) (named-variable 'index)

     (let ((sequencev (named-variable 'sequence)))
       (list* nil nil                           ; dummy bindings and prologue
             (loop-sequencer
     (let ((sequencev (named-variable 'sequence)))
       (list* nil nil                           ; dummy bindings and prologue
             (loop-sequencer

-              indexv 'fixnum indexv-user-specified-p
-              variable (or data-type element-type)
-              sequencev sequence-type
-              `(,fetch-function ,sequencev ,indexv)
-              `(,size-function ,sequencev)
-              prep-phrases)))))
+             indexv 'fixnum 
+             variable (or data-type element-type)
+             sequencev sequence-type
+             `(,fetch-function ,sequencev ,indexv)
+             `(,size-function ,sequencev)
+             prep-phrases)))))

 \f
 ;;;; builtin LOOP iteration paths
 
 \f
 ;;;; builtin LOOP iteration paths
 

@@ -1873,17 +1791,19 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
         (loop-error "too many prepositions!"))
        ((null prep-phrases)
         (loop-error "missing OF or IN in ~S iteration path")))
         (loop-error "too many prepositions!"))
        ((null prep-phrases)
         (loop-error "missing OF or IN in ~S iteration path")))

-  (let ((ht-var (loop-gentemp 'loop-hashtab-))
-       (next-fn (loop-gentemp 'loop-hashtab-next-))
+  (let ((ht-var (gensym "LOOP-HASHTAB-"))
+       (next-fn (gensym "LOOP-HASHTAB-NEXT-"))

        (dummy-predicate-var nil)
        (post-steps nil))
     (multiple-value-bind (other-var other-p)
        (dummy-predicate-var nil)
        (post-steps nil))
     (multiple-value-bind (other-var other-p)

-       (named-variable (if (eq which 'hash-key) 'hash-value 'hash-key))
-      ;; @@@@ named-variable returns a second value of T if the name was
-      ;; actually specified, so clever code can throw away the gensym'ed up
-      ;; variable if it isn't really needed. The following is for those
-      ;; implementations in which we cannot put dummy NILs into
-      ;; multiple-value-setq variable lists.
+       (named-variable (ecase which
+                         (:hash-key 'hash-value)
+                         (:hash-value 'hash-key)))
+      ;; @@@@ NAMED-VARIABLE returns a second value of T if the name
+      ;; was actually specified, so clever code can throw away the
+      ;; GENSYM'ed-up variable if it isn't really needed. The
+      ;; following is for those implementations in which we cannot put
+      ;; dummy NILs into MULTIPLE-VALUE-SETQ variable lists.

       (setq other-p t
            dummy-predicate-var (loop-when-it-variable))
       (let ((key-var nil)
       (setq other-p t
            dummy-predicate-var (loop-when-it-variable))
       (let ((key-var nil)

@@ -1891,18 +1811,20 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
            (bindings `((,variable nil ,data-type)
                        (,ht-var ,(cadar prep-phrases))
                        ,@(and other-p other-var `((,other-var nil))))))
            (bindings `((,variable nil ,data-type)
                        (,ht-var ,(cadar prep-phrases))
                        ,@(and other-p other-var `((,other-var nil))))))

-       (if (eq which 'hash-key)
-           (setq key-var variable val-var (and other-p other-var))
-           (setq key-var (and other-p other-var) val-var variable))
+       (ecase which
+         (:hash-key (setq key-var variable
+                          val-var (and other-p other-var)))
+         (:hash-value (setq key-var (and other-p other-var)
+                            val-var variable)))

        (push `(with-hash-table-iterator (,next-fn ,ht-var)) *loop-wrappers*)
        (when (consp key-var)
          (setq post-steps
        (push `(with-hash-table-iterator (,next-fn ,ht-var)) *loop-wrappers*)
        (when (consp key-var)
          (setq post-steps

-               `(,key-var ,(setq key-var (loop-gentemp 'loop-hash-key-temp-))
+               `(,key-var ,(setq key-var (gensym "LOOP-HASH-KEY-TEMP-"))

                           ,@post-steps))
          (push `(,key-var nil) bindings))
        (when (consp val-var)
          (setq post-steps
                           ,@post-steps))
          (push `(,key-var nil) bindings))
        (when (consp val-var)
          (setq post-steps

-               `(,val-var ,(setq val-var (loop-gentemp 'loop-hash-val-temp-))
+               `(,val-var ,(setq val-var (gensym "LOOP-HASH-VAL-TEMP-"))

                           ,@post-steps))
          (push `(,val-var nil) bindings))
        `(,bindings                             ;bindings
                           ,@post-steps))
          (push `(,val-var nil) bindings))
        `(,bindings                             ;bindings

@@ -1921,8 +1843,8 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
         (loop-error "missing OF or IN in ~S iteration path")))
   (unless (symbolp variable)
     (loop-error "Destructuring is not valid for package symbol iteration."))
         (loop-error "missing OF or IN in ~S iteration path")))
   (unless (symbolp variable)
     (loop-error "Destructuring is not valid for package symbol iteration."))

-  (let ((pkg-var (loop-gentemp 'loop-pkgsym-))
-       (next-fn (loop-gentemp 'loop-pkgsym-next-)))
+  (let ((pkg-var (gensym "LOOP-PKGSYM-"))
+       (next-fn (gensym "LOOP-PKGSYM-NEXT-")))

     (push `(with-package-iterator (,next-fn ,pkg-var ,@symbol-types))
          *loop-wrappers*)
     `(((,variable nil ,data-type) (,pkg-var ,(cadar prep-phrases)))
     (push `(with-package-iterator (,next-fn ,pkg-var ,@symbol-types))
          *loop-wrappers*)
     `(((,variable nil ,data-type) (,pkg-var ,(cadar prep-phrases)))

@@ -1938,7 +1860,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
 
 (defun make-ansi-loop-universe (extended-p)
   (let ((w (make-standard-loop-universe
 
 (defun make-ansi-loop-universe (extended-p)
   (let ((w (make-standard-loop-universe

-            :keywords `((named (loop-do-named))
+            :keywords '((named (loop-do-named))

                         (initially (loop-do-initially))
                         (finally (loop-do-finally))
                         (do (loop-do-do))
                         (initially (loop-do-initially))
                         (finally (loop-do-finally))
                         (do (loop-do-do))

@@ -1951,10 +1873,10 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                         (nconc (loop-list-collection nconc))
                         (nconcing (loop-list-collection nconc))
                         (count (loop-sum-collection count
                         (nconc (loop-list-collection nconc))
                         (nconcing (loop-list-collection nconc))
                         (count (loop-sum-collection count

-                                                    ,*loop-real-data-type*
+                                                    real

                                                     fixnum))
                         (counting (loop-sum-collection count
                                                     fixnum))
                         (counting (loop-sum-collection count

-                                                       ,*loop-real-data-type*
+                                                       real

                                                        fixnum))
                         (sum (loop-sum-collection sum number number))
                         (summing (loop-sum-collection sum number number))
                                                        fixnum))
                         (sum (loop-sum-collection sum number number))
                         (summing (loop-sum-collection sum number number))

@@ -1981,6 +1903,7 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                             (below (loop-for-arithmetic :below))
                             (to (loop-for-arithmetic :to))
                             (upto (loop-for-arithmetic :upto))
                             (below (loop-for-arithmetic :below))
                             (to (loop-for-arithmetic :to))
                             (upto (loop-for-arithmetic :upto))

+                            (by (loop-for-arithmetic :by))

                             (being (loop-for-being)))
             :iteration-keywords '((for (loop-do-for))
                                   (as (loop-do-for))
                             (being (loop-for-being)))
             :iteration-keywords '((for (loop-do-for))
                                   (as (loop-do-for))

@@ -2019,7 +1942,8 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
                   'loop-package-symbols-iteration-path w
                   :preposition-groups '((:of :in))
                   :inclusive-permitted nil
                   'loop-package-symbols-iteration-path w
                   :preposition-groups '((:of :in))
                   :inclusive-permitted nil

-                  :user-data '(:symbol-types (:internal)))
+                  :user-data '(:symbol-types (:internal
+                                              :external)))

     w))
 
 (defparameter *loop-ansi-universe*
     w))
 
 (defparameter *loop-ansi-universe*

@@ -2031,12 +1955,12 @@ a LET-like macro, and a SETQ-like macro, which perform LOOP-style destructuring.
     (let ((tag (gensym)))
       `(block nil (tagbody ,tag (progn ,@keywords-and-forms) (go ,tag))))))
 
     (let ((tag (gensym)))
       `(block nil (tagbody ,tag (progn ,@keywords-and-forms) (go ,tag))))))
 

-(sb!kernel:defmacro-mundanely loop (&environment env &rest keywords-and-forms)
+(sb!int:defmacro-mundanely loop (&environment env &rest keywords-and-forms)

   (loop-standard-expansion keywords-and-forms env *loop-ansi-universe*))
 
   (loop-standard-expansion keywords-and-forms env *loop-ansi-universe*))
 

-(sb!kernel:defmacro-mundanely loop-finish ()
+(sb!int:defmacro-mundanely loop-finish ()

   #!+sb-doc
   #!+sb-doc

-  "Causes the iteration to terminate \"normally\", the same as implicit
+  "Cause the iteration to terminate \"normally\", the same as implicit

 termination by an iteration driving clause, or by use of WHILE or
 UNTIL -- the epilogue code (if any) will be run, and any implicitly
 collected result will be returned as the value of the LOOP."
 termination by an iteration driving clause, or by use of WHILE or
 UNTIL -- the epilogue code (if any) will be run, and any implicitly
 collected result will be returned as the value of the LOOP."