;;; Allocate an indirect value cell. Maybe do some clever stack
;;; allocation someday.
-(defevent make-value-cell "Allocate heap value cell for lexical var.")
+;;;
+;;; FIXME: DO-MAKE-VALUE-CELL is a bad name, since it doesn't make
+;;; clear what's the distinction between it and the MAKE-VALUE-CELL
+;;; VOP, and since the DO- further connotes iteration, which has
+;;; nothing to do with this. Clearer, more systematic names, anyone?
+(defevent make-value-cell-event "Allocate heap value cell for lexical var.")
(defun do-make-value-cell (node block value res)
- (event make-value-cell node)
+ (event make-value-cell-event node)
(vop make-value-cell node block value res))
\f
;;;; leaf reference
;;; Return the TN that holds the value of THING in the environment ENV.
-(defun find-in-environment (thing env)
- (declare (type (or nlx-info lambda-var) thing) (type environment env)
- (values tn))
- (or (cdr (assoc thing (ir2-environment-environment (environment-info env))))
+(declaim (ftype (function ((or nlx-info lambda-var) physenv) tn)
+ find-in-physenv))
+(defun find-in-physenv (thing physenv)
+ (or (cdr (assoc thing (ir2-physenv-closure (physenv-info physenv))))
(etypecase thing
(lambda-var
- (assert (eq env (lambda-environment (lambda-var-home thing))))
+ ;; I think that a failure of this assertion means that we're
+ ;; trying to access a variable which was improperly closed
+ ;; over. The PHYSENV describes a physical environment. Every
+ ;; variable that a form refers to should either be in its
+ ;; physical environment directly, or grabbed from a
+ ;; surrounding physical environment when it was closed over.
+ ;; The ASSOC expression above finds closed-over variables, so
+ ;; if we fell through the ASSOC expression, it wasn't closed
+ ;; over. Therefore, it must be in our physical environment
+ ;; directly. If instead it is in some other physical
+ ;; environment, then it's bogus for us to reference it here
+ ;; without it being closed over. -- WHN 2001-09-29
+ (aver (eq physenv (lambda-physenv (lambda-var-home thing))))
(leaf-info thing))
(nlx-info
- (assert (eq env (block-environment (nlx-info-target thing))))
+ (aver (eq physenv (block-physenv (nlx-info-target thing))))
(ir2-nlx-info-home (nlx-info-info thing))))))
;;; If LEAF already has a constant TN, return that, otherwise make a
;;; isn't directly represented by a TN. ENV is the environment that
;;; the reference is done in.
(defun leaf-tn (leaf env)
- (declare (type leaf leaf) (type environment env))
+ (declare (type leaf leaf) (type physenv env))
(typecase leaf
(lambda-var
(unless (lambda-var-indirect leaf)
- (find-in-environment leaf env)))
+ (find-in-physenv leaf env)))
(constant (constant-tn leaf))
(t nil)))
(declare (type ref node) (type ir2-block block))
(let* ((cont (node-cont node))
(leaf (ref-leaf node))
- (name (leaf-name leaf))
(locs (continuation-result-tns
cont (list (primitive-type (leaf-type leaf)))))
(res (first locs)))
(etypecase leaf
(lambda-var
- (let ((tn (find-in-environment leaf (node-environment node))))
+ (let ((tn (find-in-physenv leaf (node-physenv node))))
(if (lambda-var-indirect leaf)
(vop value-cell-ref node block tn res)
(emit-move node block tn res))))
(constant
(if (legal-immediate-constant-p leaf)
(emit-move node block (constant-tn leaf) res)
- (let ((name-tn (emit-constant name)))
+ (let* ((name (leaf-source-name leaf))
+ (name-tn (emit-constant name)))
(if (policy node (zerop safety))
(vop fast-symbol-value node block name-tn res)
(vop symbol-value node block name-tn res)))))
(functional
(ir2-convert-closure node block leaf res))
(global-var
- (let ((unsafe (policy node (zerop safety))))
+ (let ((unsafe (policy node (zerop safety)))
+ (name (leaf-source-name leaf)))
(ecase (global-var-kind leaf)
- ((:special :global :constant)
- (assert (symbolp name))
+ ((:special :global)
+ (aver (symbolp name))
(let ((name-tn (emit-constant name)))
(if unsafe
(vop fast-symbol-value node block name-tn res)
(:global-function
(let ((fdefn-tn (make-load-time-constant-tn :fdefinition name)))
(if unsafe
- (vop fdefn-function node block fdefn-tn res)
- (vop safe-fdefn-function node block fdefn-tn res))))))))
+ (vop fdefn-fun node block fdefn-tn res)
+ (vop safe-fdefn-fun node block fdefn-tn res))))))))
(move-continuation-result node block locs cont))
(values))
-;;; Emit code to load a function object representing LEAF into RES.
-;;; This gets interesting when the referenced function is a closure:
-;;; we must make the closure and move the closed over values into it.
+;;; Emit code to load a function object implementing FUN into
+;;; RES. This gets interesting when the referenced function is a
+;;; closure: we must make the closure and move the closed-over values
+;;; into it.
;;;
-;;; LEAF is either a :TOP-LEVEL-XEP functional or the XEP lambda for
-;;; the called function, since local call analysis converts all
-;;; closure references. If a TL-XEP, we know it is not a closure.
+;;; FUN is either a :TOPLEVEL-XEP functional or the XEP lambda for the
+;;; called function, since local call analysis converts all closure
+;;; references. If a :TOPLEVEL-XEP, we know it is not a closure.
;;;
-;;; If a closed-over lambda-var has no refs (is deleted), then we
+;;; If a closed-over LAMBDA-VAR has no refs (is deleted), then we
;;; don't initialize that slot. This can happen with closures over
-;;; top-level variables, where optimization of the closure deleted the
+;;; top level variables, where optimization of the closure deleted the
;;; variable. Since we committed to the closure format when we
-;;; pre-analyzed the top-level code, we just leave an empty slot.
-(defun ir2-convert-closure (node block leaf res)
- (declare (type ref node) (type ir2-block block)
- (type functional leaf) (type tn res))
- (unless (leaf-info leaf)
- (setf (leaf-info leaf) (make-entry-info)))
- (let ((entry (make-load-time-constant-tn :entry leaf))
- (closure (etypecase leaf
+;;; pre-analyzed the top level code, we just leave an empty slot.
+(defun ir2-convert-closure (ref ir2-block fun res)
+ (declare (type ref ref) (type ir2-block ir2-block)
+ (type functional fun) (type tn res))
+
+ (unless (leaf-info fun)
+ (setf (leaf-info fun)
+ (make-entry-info :name (functional-debug-name fun))))
+ (let ((entry (make-load-time-constant-tn :entry fun))
+ (closure (etypecase fun
(clambda
- (environment-closure (get-lambda-environment leaf)))
+
+ ;; This assertion was sort of an experiment. It
+ ;; would be nice and sane and easier to understand
+ ;; things if it were *always* true, but
+ ;; experimentally I observe that it's only
+ ;; *almost* always true. -- WHN 2001-01-02
+ #+nil
+ (aver (eql (lambda-component fun)
+ (block-component (ir2-block-block ir2-block))))
+
+ ;; Check for some weirdness which came up in bug
+ ;; 138, 2002-01-02.
+ ;;
+ ;; The MAKE-LOAD-TIME-CONSTANT-TN call above puts
+ ;; an :ENTRY record into the
+ ;; IR2-COMPONENT-CONSTANTS table. The
+ ;; dump-a-COMPONENT code
+ ;; * treats every HANDLEless :ENTRY record into a
+ ;; patch, and
+ ;; * expects every patch to correspond to an
+ ;; IR2-COMPONENT-ENTRIES record.
+ ;; The IR2-COMPONENT-ENTRIES records are set by
+ ;; ENTRY-ANALYZE walking over COMPONENT-LAMBDAS.
+ ;; Bug 138b arose because there was a HANDLEless
+ ;; :ENTRY record which didn't correspond to an
+ ;; IR2-COMPONENT-ENTRIES record. That problem is
+ ;; hard to debug when it's caught at dump time, so
+ ;; this assertion tries to catch it here.
+ (aver (member fun
+ (component-lambdas (lambda-component fun))))
+
+ ;; another bug-138-related issue: COMPONENT-NEW-FUNS
+ ;; is an IR1 temporary, and now that we're doing IR2
+ ;; it should've been completely flushed (but wasn't).
+ (aver (null (component-new-funs (lambda-component fun))))
+
+ (physenv-closure (get-lambda-physenv fun)))
(functional
- (assert (eq (functional-kind leaf) :top-level-xep))
+ (aver (eq (functional-kind fun) :toplevel-xep))
nil))))
+
(cond (closure
- (let ((this-env (node-environment node)))
- (vop make-closure node block entry (length closure) res)
+ (let ((this-env (node-physenv ref)))
+ (vop make-closure ref ir2-block entry (length closure) res)
(loop for what in closure and n from 0 do
(unless (and (lambda-var-p what)
(null (leaf-refs what)))
- (vop closure-init node block
+ (vop closure-init ref ir2-block
res
- (find-in-environment what this-env)
+ (find-in-physenv what this-env)
n)))))
(t
- (emit-move node block entry res))))
+ (emit-move ref ir2-block entry res))))
(values))
;;; Convert a SET node. If the node's CONT is annotated, then we also
(etypecase leaf
(lambda-var
(when (leaf-refs leaf)
- (let ((tn (find-in-environment leaf (node-environment node))))
+ (let ((tn (find-in-physenv leaf (node-physenv node))))
(if (lambda-var-indirect leaf)
(vop value-cell-set node block tn val)
(emit-move node block val tn)))))
(global-var
(ecase (global-var-kind leaf)
((:special :global)
- (assert (symbolp (leaf-name leaf)))
- (vop set node block (emit-constant (leaf-name leaf)) val)))))
+ (aver (symbolp (leaf-source-name leaf)))
+ (vop set node block (emit-constant (leaf-source-name leaf)) val)))))
(when locs
(emit-move node block val (first locs))
(move-continuation-result node block locs cont)))
(ecase (ir2-continuation-kind 2cont)
(:delayed
(let ((ref (continuation-use cont)))
- (leaf-tn (ref-leaf ref) (node-environment ref))))
+ (leaf-tn (ref-leaf ref) (node-physenv ref))))
(:fixed
- (assert (= (length (ir2-continuation-locs 2cont)) 1))
+ (aver (= (length (ir2-continuation-locs 2cont)) 1))
(first (ir2-continuation-locs 2cont)))))
(ptype (ir2-continuation-primitive-type 2cont)))
(cond ((and (eq (continuation-type-check cont) t)
(multiple-value-bind (check types)
(continuation-check-types cont)
- (assert (eq check :simple))
+ (aver (eq check :simple))
;; If the proven type is a subtype of the possibly
;; weakened type check then it's always true and is
;; flushed.
(type continuation cont) (list ptypes))
(let* ((locs (ir2-continuation-locs (continuation-info cont)))
(nlocs (length locs)))
- (assert (= nlocs (length ptypes)))
+ (aver (= nlocs (length ptypes)))
(if (eq (continuation-type-check cont) t)
(multiple-value-bind (check types) (continuation-check-types cont)
- (assert (eq check :simple))
+ (aver (eq check :simple))
(let ((ntypes (length types)))
- (mapcar #'(lambda (from to-type assertion)
- (let ((temp (make-normal-tn to-type)))
- (if assertion
- (emit-type-check node block from temp assertion)
- (emit-move node block from temp))
- temp))
+ (mapcar (lambda (from to-type assertion)
+ (let ((temp (make-normal-tn to-type)))
+ (if assertion
+ (emit-type-check node block from temp assertion)
+ (emit-move node block from temp))
+ temp))
locs ptypes
(if (< ntypes nlocs)
(append types (make-list (- nlocs ntypes)
:initial-element nil))
types))))
- (mapcar #'(lambda (from to-type)
- (if (eq (tn-primitive-type from) to-type)
- from
- (let ((temp (make-normal-tn to-type)))
- (emit-move node block from temp)
- temp)))
+ (mapcar (lambda (from to-type)
+ (if (eq (tn-primitive-type from) to-type)
+ from
+ (let ((temp (make-normal-tn to-type)))
+ (emit-move node block from temp)
+ temp)))
locs
ptypes))))
\f
(unless (eq (tn-primitive-type (car loc)) (car type))
(return nil))))
locs
- (mapcar #'(lambda (loc type)
- (if (eq (tn-primitive-type loc) type)
- loc
- (make-normal-tn type)))
+ (mapcar (lambda (loc type)
+ (if (eq (tn-primitive-type loc) type)
+ loc
+ (make-normal-tn type)))
(if (< nlocs ntypes)
(append locs
(mapcar #'make-normal-tn
(declare (type unsigned-byte n))
(collect ((res))
(dotimes (i n)
- (res (standard-argument-location i)))
+ (res (standard-arg-location i)))
(res)))
;;; Return a list of TNs wired to the standard value passing
(declare (type node node) (type ir2-block block) (list src dest))
(let ((nsrc (length src))
(ndest (length dest)))
- (mapc #'(lambda (from to)
- (unless (eq from to)
- (emit-move node block from to)))
+ (mapc (lambda (from to)
+ (unless (eq from to)
+ (emit-move node block from to)))
(if (> ndest nsrc)
(append src (make-list (- ndest nsrc)
:initial-element (emit-constant nil)))
dest))
(values))
-;;; If necessary, emit coercion code needed to deliver the Results to
+;;; If necessary, emit coercion code needed to deliver the RESULTS to
;;; the specified continuation. NODE and BLOCK provide context for
;;; emitting code. Although usually obtained from STANDARD-RESULT-TNs
;;; or CONTINUATION-RESULT-TNs, RESULTS my be a list of any type or
;;; arguments are returned in the second value as a list rather than
;;; being accessed as a normal argument. NODE and BLOCK provide the
;;; context for emitting any necessary type-checking code.
-(defun reference-arguments (node block args template)
+(defun reference-args (node block args template)
(declare (type node node) (type ir2-block block) (list args)
(type template template))
(collect ((info-args))
(declare (type node node) (type ir2-block block)
(type template template) (type (or tn-ref null) args)
(list info-args) (type cif if) (type boolean not-p))
- (assert (= (template-info-arg-count template) (+ (length info-args) 2)))
+ (aver (= (template-info-arg-count template) (+ (length info-args) 2)))
(let ((consequent (if-consequent if))
(alternative (if-alternative if)))
(cond ((drop-thru-p if consequent)
(cont (node-cont call))
(rtypes (template-result-types template)))
(multiple-value-bind (args info-args)
- (reference-arguments call block (combination-args call) template)
- (assert (not (template-more-results-type template)))
+ (reference-args call block (combination-args call) template)
+ (aver (not (template-more-results-type template)))
(if (eq rtypes :conditional)
(ir2-convert-conditional call block template args info-args
(continuation-dest cont) nil)
(let* ((results (make-template-result-tns call cont template rtypes))
(r-refs (reference-tn-list results t)))
- (assert (= (length info-args)
- (template-info-arg-count template)))
+ (aver (= (length info-args)
+ (template-info-arg-count template)))
(if info-args
(emit-template call block template args r-refs info-args)
(emit-template call block template args r-refs))
(results (make-template-result-tns call cont template rtypes))
(r-refs (reference-tn-list results t)))
(multiple-value-bind (args info-args)
- (reference-arguments call block (cddr (combination-args call))
- template)
- (assert (not (template-more-results-type template)))
- (assert (not (eq rtypes :conditional)))
- (assert (null info-args))
+ (reference-args call block (cddr (combination-args call)) template)
+ (aver (not (template-more-results-type template)))
+ (aver (not (eq rtypes :conditional)))
+ (aver (null info-args))
(if info
(emit-template call block template args r-refs info)
;;; this.
(defun ir2-convert-let (node block fun)
(declare (type combination node) (type ir2-block block) (type clambda fun))
- (mapc #'(lambda (var arg)
- (when arg
- (let ((src (continuation-tn node block arg))
- (dest (leaf-info var)))
- (if (lambda-var-indirect var)
- (do-make-value-cell node block src dest)
- (emit-move node block src dest)))))
+ (mapc (lambda (var arg)
+ (when arg
+ (let ((src (continuation-tn node block arg))
+ (dest (leaf-info var)))
+ (if (lambda-var-indirect var)
+ (do-make-value-cell node block src dest)
+ (emit-move node block src dest)))))
(lambda-vars fun) (basic-combination-args node))
(values))
(defun emit-psetq-moves (node block fun old-fp)
(declare (type combination node) (type ir2-block block) (type clambda fun)
(type (or tn null) old-fp))
- (let* ((called-env (environment-info (lambda-environment fun)))
- (this-1env (node-environment node))
- (actuals (mapcar #'(lambda (x)
- (when x
- (continuation-tn node block x)))
- (combination-args node))))
+ (let* ((called-env (physenv-info (lambda-physenv fun)))
+ (this-1env (node-physenv node))
+ (actuals (mapcar (lambda (x)
+ (when x
+ (continuation-tn node block x)))
+ (combination-args node))))
(collect ((temps)
(locs))
(dolist (var (lambda-vars fun))
(locs loc))))
(when old-fp
- (dolist (thing (ir2-environment-environment called-env))
- (temps (find-in-environment (car thing) this-1env))
+ (dolist (thing (ir2-physenv-closure called-env))
+ (temps (find-in-physenv (car thing) this-1env))
(locs (cdr thing)))
(temps old-fp)
- (locs (ir2-environment-old-fp called-env)))
+ (locs (ir2-physenv-old-fp called-env)))
(values (temps) (locs)))))
;;; function's passing location.
(defun ir2-convert-tail-local-call (node block fun)
(declare (type combination node) (type ir2-block block) (type clambda fun))
- (let ((this-env (environment-info (node-environment node))))
+ (let ((this-env (physenv-info (node-physenv node))))
(multiple-value-bind (temps locs)
- (emit-psetq-moves node block fun (ir2-environment-old-fp this-env))
+ (emit-psetq-moves node block fun (ir2-physenv-old-fp this-env))
- (mapc #'(lambda (temp loc)
- (emit-move node block temp loc))
+ (mapc (lambda (temp loc)
+ (emit-move node block temp loc))
temps locs))
(emit-move node block
- (ir2-environment-return-pc this-env)
- (ir2-environment-return-pc-pass
- (environment-info
- (lambda-environment fun)))))
+ (ir2-physenv-return-pc this-env)
+ (ir2-physenv-return-pc-pass
+ (physenv-info
+ (lambda-physenv fun)))))
(values))
(declare (type combination node) (type ir2-block block) (type clambda fun))
(multiple-value-bind (temps locs) (emit-psetq-moves node block fun nil)
- (mapc #'(lambda (temp loc)
- (emit-move node block temp loc))
+ (mapc (lambda (temp loc)
+ (emit-move node block temp loc))
temps locs))
(values))
(emit-psetq-moves node block fun old-fp)
(vop current-fp node block old-fp)
(vop allocate-frame node block
- (environment-info (lambda-environment fun))
+ (physenv-info (lambda-physenv fun))
fp nfp)
(values fp nfp temps (mapcar #'make-alias-tn locs)))))
(vop* known-call-local node block
(fp nfp (reference-tn-list temps nil))
((reference-tn-list locs t))
- arg-locs (environment-info (lambda-environment fun)) start)
+ arg-locs (physenv-info (lambda-physenv fun)) start)
(move-continuation-result node block locs cont)))
(values))
(multiple-value-bind (fp nfp temps arg-locs)
(ir2-convert-local-call-args node block fun)
(let ((2cont (continuation-info cont))
- (env (environment-info (lambda-environment fun)))
+ (env (physenv-info (lambda-physenv fun)))
(temp-refs (reference-tn-list temps nil)))
(if (and 2cont (eq (ir2-continuation-kind 2cont) :unknown))
(vop* multiple-call-local node block (fp nfp temp-refs)
((node-tail-p node)
(ir2-convert-tail-local-call node block fun))
(t
- (let ((start (block-label (node-block (lambda-bind fun))))
+ (let ((start (block-label (lambda-block fun)))
(returns (tail-set-info (lambda-tail-set fun)))
(cont (node-cont node)))
(ecase (if returns
\f
;;;; full call
-;;; Given a function continuation Fun, return as values a TN holding
+;;; Given a function continuation FUN, return as values a TN holding
;;; the thing that we call and true if the thing is named (false if it
;;; is a function). There are two interesting non-named cases:
-;;; -- Known to be a function, no check needed: return the continuation loc.
-;;; -- Not known what it is.
-(defun function-continuation-tn (node block cont)
+;;; -- Known to be a function, no check needed: return the
+;;; continuation loc.
+;;; -- Not known what it is.
+(defun fun-continuation-tn (node block cont)
(declare (type continuation cont))
(let ((2cont (continuation-info cont)))
(if (eq (ir2-continuation-kind 2cont) :delayed)
- (let ((name (continuation-function-name cont t)))
- (assert name)
+ (let ((name (continuation-fun-name cont t)))
+ (aver name)
(values (make-load-time-constant-tn :fdefinition name) t))
(let* ((locs (ir2-continuation-locs 2cont))
(loc (first locs))
(check (continuation-type-check cont))
(function-ptype (primitive-type-or-lose 'function)))
- (assert (and (eq (ir2-continuation-kind 2cont) :fixed)
- (= (length locs) 1)))
+ (aver (and (eq (ir2-continuation-kind 2cont) :fixed)
+ (= (length locs) 1)))
(cond ((eq (tn-primitive-type loc) function-ptype)
- (assert (not (eq check t)))
+ (aver (not (eq check t)))
(values loc nil))
(t
(let ((temp (make-normal-tn function-ptype)))
- (assert (and (eq (ir2-continuation-primitive-type 2cont)
- function-ptype)
- (eq check t)))
+ (aver (and (eq (ir2-continuation-primitive-type 2cont)
+ function-ptype)
+ (eq check t)))
(emit-type-check node block loc temp
(specifier-type 'function))
(values temp nil))))))))
(last nil)
(first nil))
(dotimes (num (length args))
- (let ((loc (standard-argument-location num)))
+ (let ((loc (standard-arg-location num)))
(emit-move node block (continuation-tn node block (elt args num)) loc)
(let ((ref (reference-tn loc nil)))
(if last
;;; named) tail call.
(defun ir2-convert-tail-full-call (node block)
(declare (type combination node) (type ir2-block block))
- (let* ((env (environment-info (node-environment node)))
+ (let* ((env (physenv-info (node-physenv node)))
(args (basic-combination-args node))
(nargs (length args))
(pass-refs (move-tail-full-call-args node block))
- (old-fp (ir2-environment-old-fp env))
- (return-pc (ir2-environment-return-pc env)))
+ (old-fp (ir2-physenv-old-fp env))
+ (return-pc (ir2-physenv-return-pc env)))
(multiple-value-bind (fun-tn named)
- (function-continuation-tn node block (basic-combination-fun node))
+ (fun-continuation-tn node block (basic-combination-fun node))
(if named
(vop* tail-call-named node block
(fun-tn old-fp return-pc pass-refs)
(let ((last nil)
(first nil))
(dotimes (num nargs)
- (locs (standard-argument-location num))
+ (locs (standard-arg-location num))
(let ((ref (reference-tn (continuation-tn node block (elt args num))
nil)))
(if last
(loc-refs (reference-tn-list locs t))
(nvals (length locs)))
(multiple-value-bind (fun-tn named)
- (function-continuation-tn node block (basic-combination-fun node))
+ (fun-continuation-tn node block (basic-combination-fun node))
(if named
(vop* call-named node block (fp fun-tn args) (loc-refs)
arg-locs nargs nvals)
(locs (ir2-continuation-locs (continuation-info cont)))
(loc-refs (reference-tn-list locs t)))
(multiple-value-bind (fun-tn named)
- (function-continuation-tn node block (basic-combination-fun node))
+ (fun-continuation-tn node block (basic-combination-fun node))
(if named
(vop* multiple-call-named node block (fp fun-tn args) (loc-refs)
arg-locs nargs)
;;; a DEFSETF or some such thing elsewhere in the program?
(defun check-full-call (node)
(let* ((cont (basic-combination-fun node))
- (fname (continuation-function-name cont t)))
+ (fname (continuation-fun-name cont t)))
(declare (type (or symbol cons) fname))
#!+sb-show (unless (gethash fname *full-called-fnames*)
(when (consp fname)
(destructuring-bind (setf stem) fname
- (assert (eq setf 'setf))
+ (aver (eq setf 'setf))
(setf (gethash stem *setf-assumed-fboundp*) t)))))
;;; If the call is in a tail recursive position and the return
(defun init-xep-environment (node block fun)
(declare (type bind node) (type ir2-block block) (type clambda fun))
(let ((start-label (entry-info-offset (leaf-info fun)))
- (env (environment-info (node-environment node))))
- (let ((ef (functional-entry-function fun)))
+ (env (physenv-info (node-physenv node))))
+ (let ((ef (functional-entry-fun fun)))
(cond ((and (optional-dispatch-p ef) (optional-dispatch-more-entry ef))
;; Special case the xep-allocate-frame + copy-more-arg case.
(vop xep-allocate-frame node block start-label t)
(t
;; No more args, so normal entry.
(vop xep-allocate-frame node block start-label nil)))
- (if (ir2-environment-environment env)
+ (if (ir2-physenv-closure env)
(let ((closure (make-normal-tn *backend-t-primitive-type*)))
(vop setup-closure-environment node block start-label closure)
(when (getf (functional-plist ef) :fin-function)
(vop funcallable-instance-lexenv node block closure closure))
(let ((n -1))
- (dolist (loc (ir2-environment-environment env))
+ (dolist (loc (ir2-physenv-closure env))
(vop closure-ref node block closure (incf n) (cdr loc)))))
(vop setup-environment node block start-label)))
- (unless (eq (functional-kind fun) :top-level)
+ (unless (eq (functional-kind fun) :toplevel)
(let ((vars (lambda-vars fun))
(n 0))
(when (leaf-refs (first vars))
- (emit-move node block (make-argument-count-location)
+ (emit-move node block (make-arg-count-location)
(leaf-info (first vars))))
(dolist (arg (rest vars))
(when (leaf-refs arg)
- (let ((pass (standard-argument-location n))
+ (let ((pass (standard-arg-location n))
(home (leaf-info arg)))
(if (lambda-var-indirect arg)
(do-make-value-cell node block pass home)
(incf n))))
(emit-move node block (make-old-fp-passing-location t)
- (ir2-environment-old-fp env)))
+ (ir2-physenv-old-fp env)))
(values))
;;; Emit function prolog code. This is only called on bind nodes for
;;; functions that allocate environments. All semantics of let calls
-;;; are handled by IR2-Convert-Let.
+;;; are handled by IR2-CONVERT-LET.
;;;
;;; If not an XEP, all we do is move the return PC from its passing
;;; location, since in a local call, the caller allocates the frame
(defun ir2-convert-bind (node block)
(declare (type bind node) (type ir2-block block))
(let* ((fun (bind-lambda node))
- (env (environment-info (lambda-environment fun))))
- (assert (member (functional-kind fun)
- '(nil :external :optional :top-level :cleanup)))
+ (env (physenv-info (lambda-physenv fun))))
+ (aver (member (functional-kind fun)
+ '(nil :external :optional :toplevel :cleanup)))
- (when (external-entry-point-p fun)
+ (when (xep-p fun)
(init-xep-environment node block fun)
#!+sb-dyncount
(when *collect-dynamic-statistics*
(vop count-me node block *dynamic-counts-tn*
(block-number (ir2-block-block block)))))
- (emit-move node block (ir2-environment-return-pc-pass env)
- (ir2-environment-return-pc env))
+ (emit-move node
+ block
+ (ir2-physenv-return-pc-pass env)
+ (ir2-physenv-return-pc env))
(let ((lab (gen-label)))
- (setf (ir2-environment-environment-start env) lab)
+ (setf (ir2-physenv-environment-start env) lab)
(vop note-environment-start node block lab)))
(values))
(2cont (continuation-info cont))
(cont-kind (ir2-continuation-kind 2cont))
(fun (return-lambda node))
- (env (environment-info (lambda-environment fun)))
- (old-fp (ir2-environment-old-fp env))
- (return-pc (ir2-environment-return-pc env))
+ (env (physenv-info (lambda-physenv fun)))
+ (old-fp (ir2-physenv-old-fp env))
+ (return-pc (ir2-physenv-return-pc env))
(returns (tail-set-info (lambda-tail-set fun))))
(cond
((and (eq (return-info-kind returns) :fixed)
- (not (external-entry-point-p fun)))
+ (not (xep-p fun)))
(let ((locs (continuation-tns node block cont
(return-info-types returns))))
(vop* known-return node block
(cont-locs (continuation-tns node block cont types))
(nvals (length cont-locs))
(locs (make-standard-value-tns nvals)))
- (mapc #'(lambda (val loc)
- (emit-move node block val loc))
+ (mapc (lambda (val loc)
+ (emit-move node block val loc))
cont-locs
locs)
(if (= nvals 1)
(nil)
nvals))))
(t
- (assert (eq cont-kind :unknown))
+ (aver (eq cont-kind :unknown))
(vop* return-multiple node block
(old-fp return-pc
(reference-tn-list (ir2-continuation-locs 2cont) nil))
;;; stack. It returns the OLD-FP and RETURN-PC for the current
;;; function as multiple values.
(defoptimizer (sb!kernel:%caller-frame-and-pc ir2-convert) (() node block)
- (let ((env (environment-info (node-environment node))))
+ (let ((ir2-physenv (physenv-info (node-physenv node))))
(move-continuation-result node block
- (list (ir2-environment-old-fp env)
- (ir2-environment-return-pc env))
+ (list (ir2-physenv-old-fp ir2-physenv)
+ (ir2-physenv-return-pc ir2-physenv))
(node-cont node))))
\f
;;;; multiple values
(let* ((cont (first (basic-combination-args node)))
(fun (ref-leaf (continuation-use (basic-combination-fun node))))
(vars (lambda-vars fun)))
- (assert (eq (functional-kind fun) :mv-let))
- (mapc #'(lambda (src var)
- (when (leaf-refs var)
- (let ((dest (leaf-info var)))
- (if (lambda-var-indirect var)
- (do-make-value-cell node block src dest)
- (emit-move node block src dest)))))
+ (aver (eq (functional-kind fun) :mv-let))
+ (mapc (lambda (src var)
+ (when (leaf-refs var)
+ (let ((dest (leaf-info var)))
+ (if (lambda-var-indirect var)
+ (do-make-value-cell node block src dest)
+ (emit-move node block src dest)))))
(continuation-tns node block cont
- (mapcar #'(lambda (x)
- (primitive-type (leaf-type x)))
+ (mapcar (lambda (x)
+ (primitive-type (leaf-type x)))
vars))
vars))
(values))
;;; contiguous and on stack top.
(defun ir2-convert-mv-call (node block)
(declare (type mv-combination node) (type ir2-block block))
- (assert (basic-combination-args node))
+ (aver (basic-combination-args node))
(let* ((start-cont (continuation-info (first (basic-combination-args node))))
(start (first (ir2-continuation-locs start-cont)))
(tails (and (node-tail-p node)
(cont (node-cont node))
(2cont (continuation-info cont)))
(multiple-value-bind (fun named)
- (function-continuation-tn node block (basic-combination-fun node))
- (assert (and (not named)
- (eq (ir2-continuation-kind start-cont) :unknown)))
+ (fun-continuation-tn node block (basic-combination-fun node))
+ (aver (and (not named)
+ (eq (ir2-continuation-kind start-cont) :unknown)))
(cond
(tails
- (let ((env (environment-info (node-environment node))))
+ (let ((env (physenv-info (node-physenv node))))
(vop tail-call-variable node block start fun
- (ir2-environment-old-fp env)
- (ir2-environment-return-pc env))))
+ (ir2-physenv-old-fp env)
+ (ir2-physenv-return-pc env))))
((and 2cont
(eq (ir2-continuation-kind 2cont) :unknown))
(vop* multiple-call-variable node block (start fun nil)
;;; top of it.)
(defoptimizer (%pop-values ir2-convert) ((continuation) node block)
(let ((2cont (continuation-info (continuation-value continuation))))
- (assert (eq (ir2-continuation-kind 2cont) :unknown))
+ (aver (eq (ir2-continuation-kind 2cont) :unknown))
(vop reset-stack-pointer node block
(first (ir2-continuation-locs 2cont)))))
;;; Deliver the values TNs to CONT using MOVE-CONTINUATION-RESULT.
(defoptimizer (values ir2-convert) ((&rest values) node block)
- (let ((tns (mapcar #'(lambda (x)
- (continuation-tn node block x))
+ (let ((tns (mapcar (lambda (x)
+ (continuation-tn node block x))
values)))
(move-continuation-result node block tns (node-cont node))))
;;; This is trivial, given our assumption of a shallow-binding
;;; implementation.
(defoptimizer (%special-bind ir2-convert) ((var value) node block)
- (let ((name (leaf-name (continuation-value var))))
+ (let ((name (leaf-source-name (continuation-value var))))
(vop bind node block (continuation-tn node block value)
(emit-constant name))))
(defoptimizer (%special-unbind ir2-convert) ((var) node block)
(vop unbind node block))
-;;; ### Not clear that this really belongs in this file, or should
-;;; really be done this way, but this is the least violation of
+;;; ### It's not clear that this really belongs in this file, or
+;;; should really be done this way, but this is the least violation of
;;; abstraction in the current setup. We don't want to wire
;;; shallow-binding assumptions into IR1tran.
(def-ir1-translator progv ((vars vals &body body) start cont)
(ir1-convert
start cont
- (if (or *converting-for-interpreter* (byte-compiling))
- `(%progv ,vars ,vals #'(lambda () ,@body))
- (once-only ((n-save-bs '(%primitive current-binding-pointer)))
- `(unwind-protect
- (progn
- (mapc #'(lambda (var val)
- (%primitive bind val var))
- ,vars
- ,vals)
- ,@body)
- (%primitive unbind-to-here ,n-save-bs))))))
+ (once-only ((n-save-bs '(%primitive current-binding-pointer)))
+ `(unwind-protect
+ (progn
+ (mapc (lambda (var val)
+ (%primitive bind val var))
+ ,vars
+ ,vals)
+ ,@body)
+ (%primitive unbind-to-here ,n-save-bs)))))
\f
;;;; non-local exit
;;; IR2 converted.
(defun ir2-convert-exit (node block)
(declare (type exit node) (type ir2-block block))
- (let ((loc (find-in-environment (find-nlx-info (exit-entry node)
- (node-cont node))
- (node-environment node)))
+ (let ((loc (find-in-physenv (find-nlx-info (exit-entry node)
+ (node-cont node))
+ (node-physenv node)))
(temp (make-stack-pointer-tn))
(value (exit-value node)))
(vop value-cell-ref node block loc temp)
;;; cell that holds the closed unwind block.
(defoptimizer (%lexical-exit-breakup ir2-convert) ((info) node block)
(vop value-cell-set node block
- (find-in-environment (continuation-value info) (node-environment node))
+ (find-in-physenv (continuation-value info) (node-physenv node))
(emit-constant 0)))
;;; We have to do a spurious move of no values to the result
(ir2-continuation-locs (continuation-info (second args)))
nil))
(nil)))
-
(move-continuation-result node block () (node-cont node))
(values))
(type (or continuation null) tag))
(let* ((2info (nlx-info-info info))
(kind (cleanup-kind (nlx-info-cleanup info)))
- (block-tn (environment-live-tn
+ (block-tn (physenv-live-tn
(make-normal-tn (primitive-type-or-lose 'catch-block))
- (node-environment node)))
+ (node-physenv node)))
(res (make-stack-pointer-tn))
(target-label (ir2-nlx-info-target 2info)))
(2cont (continuation-info cont))
(2info (nlx-info-info info))
(top-loc (ir2-nlx-info-save-sp 2info))
- (start-loc (make-nlx-entry-argument-start-location))
- (count-loc (make-argument-count-location))
+ (start-loc (make-nlx-entry-arg-start-location))
+ (count-loc (make-arg-count-location))
(target (ir2-nlx-info-target 2info)))
(ecase (cleanup-kind (nlx-info-cleanup info))
(length locs))
(move-continuation-result node block locs cont))))
(:unwind-protect
- (let ((block-loc (standard-argument-location 0)))
+ (let ((block-loc (standard-arg-location 0)))
(vop uwp-entry node block target block-loc start-loc count-loc)
(move-continuation-result
node block
\f
;;;; n-argument functions
-(macrolet ((def-frob (name)
+(macrolet ((def (name)
`(defoptimizer (,name ir2-convert) ((&rest args) node block)
(let* ((refs (move-tail-full-call-args node block))
(cont (node-cont node))
(vop* ,name node block (refs) ((first res) nil)
(length args))
(move-continuation-result node block res cont)))))
- (def-frob list)
- (def-frob list*))
-\f
-;;;; structure accessors
-;;;;
-;;;; These guys have to bizarrely determine the slot offset by looking
-;;;; at the called function.
-
-(defoptimizer (%slot-accessor ir2-convert) ((str) node block)
- (let* ((cont (node-cont node))
- (res (continuation-result-tns cont
- (list *backend-t-primitive-type*))))
- (vop instance-ref node block
- (continuation-tn node block str)
- (dsd-index
- (slot-accessor-slot
- (ref-leaf
- (continuation-use
- (combination-fun node)))))
- (first res))
- (move-continuation-result node block res cont)))
-
-(defoptimizer (%slot-setter ir2-convert) ((value str) node block)
- (let ((val (continuation-tn node block value)))
- (vop instance-set node block
- (continuation-tn node block str)
- val
- (dsd-index
- (slot-accessor-slot
- (ref-leaf
- (continuation-use
- (combination-fun node))))))
-
- (move-continuation-result node block (list val) (node-cont node))))
+ (def list)
+ (def list*))
\f
;;; Convert the code in a component into VOPs.
(defun ir2-convert (component)
(when *collect-dynamic-statistics*
(let ((first-node (continuation-next (block-start block))))
(unless (or (and (bind-p first-node)
- (external-entry-point-p
- (bind-lambda first-node)))
- (eq (continuation-function-name
+ (xep-p (bind-lambda first-node)))
+ (eq (continuation-fun-name
(node-cont first-node))
'%nlx-entry))
(vop count-me
(last (block-last block))
(succ (block-succ block)))
(unless (if-p last)
- (assert (and succ (null (rest succ))))
+ (aver (and succ (null (rest succ))))
(let ((target (first succ)))
(cond ((eq target (component-tail (block-component block)))
(when (and (basic-combination-p last)
(eq (basic-combination-kind last) :full))
(let* ((fun (basic-combination-fun last))
(use (continuation-use fun))
- (name (and (ref-p use) (leaf-name (ref-leaf use)))))
+ (name (and (ref-p use)
+ (leaf-has-source-name-p (ref-leaf use))
+ (leaf-source-name (ref-leaf use)))))
(unless (or (node-tail-p last)
(info :function :info name)
(policy last (zerop safety)))
- (vop nil-function-returned-error last 2block
+ (vop nil-fun-returned-error last 2block
(if name
(emit-constant name)
(multiple-value-bind (tn named)
- (function-continuation-tn last 2block fun)
- (assert (not named))
+ (fun-continuation-tn last 2block fun)
+ (aver (not named))
tn)))))))
((not (eq (ir2-block-next 2block) (block-info target)))
(vop branch last 2block (block-label target)))))))
(:full
(ir2-convert-full-call node 2block))
(t
- (let ((fun (function-info-ir2-convert kind)))
+ (let ((fun (fun-info-ir2-convert kind)))
(cond (fun
(funcall fun node 2block))
((eq (basic-combination-info node) :full)
(cond
((eq (basic-combination-kind node) :local)
(ir2-convert-mv-bind node 2block))
- ((eq (continuation-function-name (basic-combination-fun node))
+ ((eq (continuation-fun-name (basic-combination-fun node))
'%throw)
(ir2-convert-throw node 2block))
(t
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