(in-package "SB!C")
-;;; The front-end data structure (IR1) is composed of nodes and
-;;; continuations. The general idea is that continuations contain
-;;; top-down information and nodes contain bottom-up, derived
-;;; information. A continuation represents a place in the code, while
-;;; a node represents code that does something.
-;;;
-;;; This representation is more of a flow-graph than an augmented
-;;; syntax tree. The evaluation order is explicitly represented in the
-;;; linkage by continuations, rather than being implicit in the nodes
-;;; which receive the the results of evaluation. This allows us to
-;;; decouple the flow of results from the flow of control. A
-;;; continuation represents both, but the continuation can represent
-;;; the case of a discarded result by having no DEST.
+;;; The front-end data structure (IR1) is composed of nodes,
+;;; representing actual evaluations. Linear sequences of nodes in
+;;; control-flow order are combined into blocks (but see
+;;; JOIN-SUCCESSOR-IF-POSSIBLE for precise conditions); control
+;;; transfers inside a block are represented with CTRANs and between
+;;; blocks -- with BLOCK-SUCC/BLOCK-PRED lists; data transfers are
+;;; represented with LVARs.
-(def!struct (continuation
- (:make-load-form-fun ignore-it)
- (:constructor make-continuation (&optional dest)))
+;;; "Lead-in" Control TRANsfer [to some node]
+(def!struct (ctran
+ (:make-load-form-fun ignore-it)
+ (:constructor make-ctran))
;; an indication of the way that this continuation is currently used
;;
;; :UNUSED
- ;; A continuation for which all control-related slots have the
- ;; default values. A continuation is unused during IR1 conversion
- ;; until it is assigned a block, and may be also be temporarily
- ;; unused during later manipulations of IR1. In a consistent
- ;; state there should never be any mention of :UNUSED
- ;; continuations. Next can have a non-null value if the next node
- ;; has already been determined.
- ;;
- ;; :DELETED
- ;; A continuation that has been deleted from IR1. Any pointers into
- ;; IR1 are cleared. There are two conditions under which a deleted
- ;; continuation may appear in code:
- ;; -- The CONT of the LAST node in a block may be a deleted
- ;; continuation when the original receiver of the continuation's
- ;; value was deleted. Note that DEST in a deleted continuation is
- ;; null, so it is easy to know not to attempt delivering any
- ;; values to the continuation.
- ;; -- Unreachable code that hasn't been deleted yet may receive
- ;; deleted continuations. All such code will be in blocks that
- ;; have DELETE-P set. All unreachable code is deleted by control
- ;; optimization, so the backend doesn't have to worry about this.
+ ;; A continuation for which all control-related slots have the
+ ;; default values. A continuation is unused during IR1 conversion
+ ;; until it is assigned a block, and may be also be temporarily
+ ;; unused during later manipulations of IR1. In a consistent
+ ;; state there should never be any mention of :UNUSED
+ ;; continuations. NEXT can have a non-null value if the next node
+ ;; has already been determined.
;;
;; :BLOCK-START
- ;; The continuation that is the START of BLOCK. This is the only kind
- ;; of continuation that can have more than one use. The BLOCK's
- ;; START-USES is a list of all the uses.
- ;;
- ;; :DELETED-BLOCK-START
- ;; Like :BLOCK-START, but BLOCK has been deleted. A block
- ;; starting continuation is made into a deleted block start when
- ;; the block is deleted, but the continuation still may have
- ;; value semantics. Since there isn't any code left, next is
- ;; null.
+ ;; The continuation that is the START of BLOCK.
;;
;; :INSIDE-BLOCK
- ;; A continuation that is the CONT of some node in BLOCK.
- (kind :unused :type (member :unused :deleted :inside-block :block-start
- :deleted-block-start))
- ;; The node which receives this value, if any. In a deleted
- ;; continuation, this is null even though the node that receives
- ;; this continuation may not yet be deleted.
- (dest nil :type (or node null))
- ;; If this is a NODE, then it is the node which is to be evaluated
- ;; next. This is always null in :DELETED and :UNUSED continuations,
- ;; and will be null in a :INSIDE-BLOCK continuation when this is the
- ;; CONT of the LAST.
+ ;; A continuation that is the NEXT of some node in BLOCK.
+ (kind :unused :type (member :unused :inside-block :block-start))
+ ;; A NODE which is to be evaluated next. Null only temporary.
(next nil :type (or node null))
- ;; an assertion on the type of this continuation's value
- (asserted-type *wild-type* :type ctype)
- ;; cached type of this continuation's value. If NIL, then this must
- ;; be recomputed: see CONTINUATION-DERIVED-TYPE.
- (%derived-type nil :type (or ctype null))
- ;; the node where this continuation is used, if unique. This is always
- ;; null in :DELETED and :UNUSED continuations, and is never null in
- ;; :INSIDE-BLOCK continuations. In a :BLOCK-START continuation, the
- ;; Block's START-USES indicate whether NIL means no uses or more
- ;; than one use.
+ ;; the node where this CTRAN is used, if unique. This is always null
+ ;; in :UNUSED and :BLOCK-START CTRANs, and is never null in
+ ;; :INSIDE-BLOCK continuations.
(use nil :type (or node null))
;; the basic block this continuation is in. This is null only in
- ;; :DELETED and :UNUSED continuations. Note that blocks that are
- ;; unreachable but still in the DFO may receive deleted
- ;; continuations, so it isn't o.k. to assume that any continuation
- ;; that you pick up out of its DEST node has a BLOCK.
- (block nil :type (or cblock null))
- ;; set to true when something about this continuation's value has
- ;; changed. See REOPTIMIZE-CONTINUATION. This provides a way for IR1
+ ;; :UNUSED continuations.
+ (block nil :type (or cblock null)))
+
+(def!method print-object ((x ctran) stream)
+ (print-unreadable-object (x stream :type t :identity t)
+ (format stream "~D" (cont-num x))))
+
+;;; Linear VARiable. Multiple-value (possibly of unknown number)
+;;; temporal storage.
+(def!struct (lvar
+ (:make-load-form-fun ignore-it)
+ (:constructor make-lvar (&optional dest)))
+ ;; The node which receives this value. NIL only temporarily.
+ (dest nil :type (or node null))
+ ;; cached type of this lvar's value. If NIL, then this must be
+ ;; recomputed: see LVAR-DERIVED-TYPE.
+ (%derived-type nil :type (or ctype null))
+ ;; the node (if unique) or a list of nodes where this lvar is used.
+ (uses nil :type (or node list))
+ ;; set to true when something about this lvar's value has
+ ;; changed. See REOPTIMIZE-LVAR. This provides a way for IR1
;; optimize to determine which operands to a node have changed. If
;; the optimizer for this node type doesn't care, it can elect not
;; to clear this flag.
(reoptimize t :type boolean)
- ;; an indication of what we have proven about how this contination's
- ;; type assertion is satisfied:
- ;;
- ;; NIL
- ;; No type check is necessary (proven type is a subtype of the assertion.)
- ;;
- ;; T
- ;; A type check is needed.
- ;;
- ;; :DELETED
- ;; Don't do a type check, but believe (intersect) the assertion.
- ;; A T check can be changed to :DELETED if we somehow prove the
- ;; check is unnecessary, or if we eliminate it through a policy
- ;; decision.
- ;;
- ;; :NO-CHECK
- ;; Type check generation sets the slot to this if a check is
- ;; called for, but it believes it has proven that the check won't
- ;; be done for policy reasons or because a safe implementation
- ;; will be used. In the latter case, LTN must ensure that a safe
- ;; implementation *is* used.
- ;;
- ;; :ERROR
- ;; There is a compile-time type error in some use of this
- ;; continuation. A type check should still be generated, but be
- ;; careful.
- ;;
- ;; This is computed lazily by CONTINUATION-DERIVED-TYPE, so use
- ;; CONTINUATION-TYPE-CHECK instead of the %'ed slot accessor.
- (%type-check t :type (member t nil :deleted :no-check :error))
- ;; something or other that the back end annotates this continuation with
- (info nil)
- ;; uses of this continuation in the lexical environment. They are
- ;; recorded so that when one continuation is substituted for another
- ;; the environment may be updated properly.
- (lexenv-uses nil :type list))
+ ;; Cached type which is checked by DEST. If NIL, then this must be
+ ;; recomputed: see LVAR-EXTERNALLY-CHECKABLE-TYPE.
+ (%externally-checkable-type nil :type (or null ctype))
+ ;; if the LVAR value is DYNAMIC-EXTENT, CLEANUP protecting it.
+ (dynamic-extent nil :type (or null cleanup))
+ ;; something or other that the back end annotates this lvar with
+ (info nil))
-(def!method print-object ((x continuation) stream)
- (print-unreadable-object (x stream :type t :identity t)))
+(def!method print-object ((x lvar) stream)
+ (print-unreadable-object (x stream :type t :identity t)
+ (format stream "~D" (cont-num x))))
-(defstruct (node (:constructor nil)
- (:copier nil))
- ;; the bottom-up derived type for this node. This does not take into
- ;; consideration output type assertions on this node (actually on its CONT).
- (derived-type *wild-type* :type ctype)
+(def!struct (node (:constructor nil)
+ (:include sset-element (number (incf *compiler-sset-counter*)))
+ (:copier nil))
+ ;; unique ID for debugging
+ #!+sb-show (id (new-object-id) :read-only t)
;; True if this node needs to be optimized. This is set to true
- ;; whenever something changes about the value of a continuation
- ;; whose DEST is this node.
+ ;; whenever something changes about the value of an lvar whose DEST
+ ;; is this node.
(reoptimize t :type boolean)
- ;; the continuation which receives the value of this node. This also
- ;; indicates what we do controlwise after evaluating this node. This
- ;; may be null during IR1 conversion.
- (cont nil :type (or continuation null))
- ;; the continuation that this node is the next of. This is null
- ;; during IR1 conversion when we haven't linked the node in yet or
- ;; in nodes that have been deleted from the IR1 by UNLINK-NODE.
- (prev nil :type (or continuation null))
+ ;; the ctran indicating what we do controlwise after evaluating this
+ ;; node. This is null if the node is the last in its block.
+ (next nil :type (or ctran null))
+ ;; the ctran that this node is the NEXT of. This is null during IR1
+ ;; conversion when we haven't linked the node in yet or in nodes
+ ;; that have been deleted from the IR1 by UNLINK-NODE.
+ (prev nil :type (or ctran null))
;; the lexical environment this node was converted in
(lexenv *lexenv* :type lexenv)
;; a representation of the source code responsible for generating
;; can null out this slot.
(tail-p nil :type boolean))
+(def!struct (valued-node (:conc-name node-)
+ (:include node)
+ (:constructor nil)
+ (:copier nil))
+ ;; the bottom-up derived type for this node.
+ (derived-type *wild-type* :type ctype)
+ ;; Lvar, receiving the values, produced by this node. May be NIL if
+ ;; the value is unused.
+ (lvar nil :type (or lvar null)))
+
;;; Flags that are used to indicate various things about a block, such
;;; as what optimizations need to be done on it:
;;; -- REOPTIMIZE is set when something interesting happens the uses of a
-;;; continuation whose Dest is in this block. This indicates that the
+;;; lvar whose DEST is in this block. This indicates that the
;;; value-driven (forward) IR1 optimizations should be done on this block.
;;; -- FLUSH-P is set when code in this block becomes potentially flushable,
-;;; usually due to a continuation's DEST becoming null.
+;;; usually due to an lvar's DEST becoming null.
;;; -- TYPE-CHECK is true when the type check phase should be run on this
;;; block. IR1 optimize can introduce new blocks after type check has
;;; already run. We need to check these blocks, but there is no point in
;;; checking blocks we have already checked.
;;; -- DELETE-P is true when this block is used to indicate that this block
;;; has been determined to be unreachable and should be deleted. IR1
-;;; phases should not attempt to examine or modify blocks with DELETE-P
+;;; phases should not attempt to examine or modify blocks with DELETE-P
;;; set, since they may:
;;; - be in the process of being deleted, or
-;;; - have no successors, or
-;;; - receive :DELETED continuations.
+;;; - have no successors.
;;; -- TYPE-ASSERTED, TEST-MODIFIED
;;; These flags are used to indicate that something in this block
;;; might be of interest to constraint propagation. TYPE-ASSERTED
-;;; is set when a continuation type assertion is strengthened.
+;;; is set when an lvar type assertion is strengthened.
;;; TEST-MODIFIED is set whenever the test for the ending IF has
;;; changed (may be true when there is no IF.)
-(def-boolean-attribute block
+(!def-boolean-attribute block
reoptimize flush-p type-check delete-p type-asserted test-modified)
-(macrolet ((frob (slot)
- `(defmacro ,(symbolicate "BLOCK-" slot) (block)
- `(block-attributep (block-flags ,block) ,',slot))))
- (frob reoptimize)
- (frob flush-p)
- (frob type-check)
- (frob delete-p)
- (frob type-asserted)
- (frob test-modified))
+(macrolet ((defattr (block-slot)
+ `(defmacro ,block-slot (block)
+ `(block-attributep
+ (block-flags ,block)
+ ,(symbolicate (subseq (string ',block-slot) 6))))))
+ (defattr block-reoptimize)
+ (defattr block-flush-p)
+ (defattr block-type-check)
+ (defattr block-delete-p)
+ (defattr block-type-asserted)
+ (defattr block-test-modified))
;;; The CBLOCK structure represents a basic block. We include
;;; SSET-ELEMENT so that we can have sets of blocks. Initially the
;;; order. This latter numbering also forms the basis of the block
;;; numbering in the debug-info (though that is relative to the start
;;; of the function.)
-(defstruct (cblock (:include sset-element)
- (:constructor make-block (start))
- (:constructor make-block-key)
- (:conc-name block-)
- (:predicate block-p)
- (:copier copy-block))
+(def!struct (cblock (:include sset-element)
+ (:constructor make-block (start))
+ (:constructor make-block-key)
+ (:conc-name block-)
+ (:predicate block-p))
;; a list of all the blocks that are predecessors/successors of this
;; block. In well-formed IR1, most blocks will have one successor.
;; The only exceptions are:
;; 3. blocks with DELETE-P set (zero)
(pred nil :type list)
(succ nil :type list)
- ;; the continuation which heads this block (either a :BLOCK-START or
- ;; :DELETED-BLOCK-START), or NIL when we haven't made the start
- ;; continuation yet (and in the dummy component head and tail
- ;; blocks)
- (start nil :type (or continuation null))
- ;; a list of all the nodes that have START as their CONT
- (start-uses nil :type list)
+ ;; the ctran which heads this block (a :BLOCK-START), or NIL when we
+ ;; haven't made the start ctran yet (and in the dummy component head
+ ;; and tail blocks)
+ (start nil :type (or ctran null))
;; the last node in this block. This is NIL when we are in the
;; process of building a block (and in the dummy component head and
;; tail blocks.)
(prev nil :type (or null cblock))
;; This block's attributes: see above.
(flags (block-attributes reoptimize flush-p type-check type-asserted
- test-modified)
- :type attributes)
- ;; CMU CL had a KILL slot here, documented as "set used by
- ;; constraint propagation", which was used in constraint propagation
- ;; as a list of LAMBDA-VARs killed, and in copy propagation as an
- ;; SSET, representing I dunno what. I (WHN) found this confusing,
- ;; and furthermore it caused type errors when I was trying to make
- ;; the compiler produce fully general LAMBDA functions directly
- ;; (instead of doing as CMU CL always did, producing extra little
- ;; functions which return the LAMDBA you need) and therefore taking
- ;; a new path through the compiler. So I split this into two:
- ;; KILL-LIST = list of LAMBDA-VARs killed, used in constraint propagation
- ;; KILL-SSET = an SSET value, used in copy propagation
- (kill-list nil :type list)
- (kill-sset nil :type (or sset null))
+ test-modified)
+ :type attributes)
+ ;; in constraint propagation: list of LAMBDA-VARs killed in this block
+ ;; in copy propagation: list of killed TNs
+ (kill nil)
;; other sets used in constraint propagation and/or copy propagation
(gen nil)
(in nil)
(out nil)
+ ;; Set of all blocks that dominate this block. NIL is interpreted
+ ;; as "all blocks in component".
+ (dominators nil :type (or null sset))
+ ;; the LOOP that this block belongs to
+ (loop nil :type (or null cloop))
+ ;; next block in the loop.
+ (loop-next nil :type (or null cblock))
;; the component this block is in, or NIL temporarily during IR1
;; conversion and in deleted blocks
- (component *current-component* :type (or component null))
+ (component (progn
+ (aver-live-component *current-component*)
+ *current-component*)
+ :type (or component null))
;; a flag used by various graph-walking code to determine whether
;; this block has been processed already or what. We make this
;; initially NIL so that FIND-INITIAL-DFO doesn't have to scan the
(flag nil)
;; some kind of info used by the back end
(info nil)
- ;; If true, then constraints that hold in this block and its
- ;; successors by merit of being tested by its IF predecessor.
- (test-constraint nil :type (or sset null)))
+ ;; what macroexpansions and source transforms happened "in" this block, used
+ ;; for xref
+ (xrefs nil :type list)
+ ;; Cache the physenv of a block during lifetime analysis. :NONE if
+ ;; no cached value has been stored yet.
+ (physenv-cache :none :type (or null physenv (member :none))))
(def!method print-object ((cblock cblock) stream)
(print-unreadable-object (cblock stream :type t :identity t)
- (format stream ":START c~D" (cont-num (block-start cblock)))))
+ (format stream "~W :START c~W"
+ (block-number cblock)
+ (cont-num (block-start cblock)))))
;;; The BLOCK-ANNOTATION class is inherited (via :INCLUDE) by
;;; different BLOCK-INFO annotation structures so that code
;;; (specifically control analysis) can be shared.
-(defstruct (block-annotation (:constructor nil)
- (:copier nil))
+(def!struct (block-annotation (:constructor nil)
+ (:copier nil))
;; The IR1 block that this block is in the INFO for.
(block (missing-arg) :type cblock)
;; the next and previous block in emission order (not DFO). This
- ;; determines which block we drop though to, and also used to chain
- ;; together overflow blocks that result from splitting of IR2 blocks
- ;; in lifetime analysis.
+ ;; determines which block we drop though to, and is also used to
+ ;; chain together overflow blocks that result from splitting of IR2
+ ;; blocks in lifetime analysis.
(next nil :type (or block-annotation null))
(prev nil :type (or block-annotation null)))
;;; size of flow analysis problems, this allows back-end data
;;; structures to be reclaimed after the compilation of each
;;; component.
-(defstruct (component (:copier nil))
+(def!struct (component (:copier nil)
+ (:constructor
+ make-component
+ (head
+ tail &aux
+ (last-block tail)
+ (outer-loop (make-loop :kind :outer :head head)))))
+ ;; unique ID for debugging
+ #!+sb-show (id (new-object-id) :read-only t)
;; the kind of component
;;
;; (The terminology here is left over from before
;; the blocks that are the dummy head and tail of the DFO
;;
;; Entry/exit points have these blocks as their
- ;; predecessors/successors. Null temporarily. The start and return
- ;; from each non-deleted function is linked to the component head
- ;; and tail. Until physical environment analysis links NLX entry
- ;; stubs to the component head, every successor of the head is a
- ;; function start (i.e. begins with a BIND node.)
- (head nil :type (or null cblock))
- (tail nil :type (or null cblock))
+ ;; predecessors/successors. The start and return from each
+ ;; non-deleted function is linked to the component head and
+ ;; tail. Until physical environment analysis links NLX entry stubs
+ ;; to the component head, every successor of the head is a function
+ ;; start (i.e. begins with a BIND node.)
+ (head (missing-arg) :type cblock)
+ (tail (missing-arg) :type cblock)
+ ;; New blocks are inserted before this.
+ (last-block (missing-arg) :type cblock)
;; This becomes a list of the CLAMBDA structures for all functions
;; in this component. OPTIONAL-DISPATCHes are represented only by
;; their XEP and other associated lambdas. This doesn't contain any
;;
;; Note that logical associations between CLAMBDAs and COMPONENTs
;; seem to exist for a while before this is initialized. See e.g.
- ;; the NEW-FUNS slot. In particular, I got burned by writing some
- ;; code to use this value to decide which components need
+ ;; the NEW-FUNCTIONALS slot. In particular, I got burned by writing
+ ;; some code to use this value to decide which components need
;; LOCALL-ANALYZE-COMPONENT, when it turns out that
;; LOCALL-ANALYZE-COMPONENT had a role in initializing this value
;; (and DFO stuff does too, maybe). Also, even after it's
;; (possibly as LETs, or implicitly as XEPs if an OPTIONAL-DISPATCH.)
;; Between runs of local call analysis there may be some debris of
;; converted or even deleted functions in this list.
- (new-funs () :type list)
- ;; If this is true, then there is stuff in this component that could
- ;; benefit from further IR1 optimization.
- (reoptimize t :type boolean)
+ (new-functionals () :type list)
+ ;; If this is :MAYBE, then there is stuff in this component that
+ ;; could benefit from further IR1 optimization. T means that
+ ;; reoptimization is necessary.
+ (reoptimize t :type (member nil :maybe t))
;; If this is true, then the control flow in this component was
;; messed up by IR1 optimizations, so the DFO should be recomputed.
(reanalyze nil :type boolean)
;; some sort of name for the code in this component
- (name "<unknown>" :type simple-string)
- ;; some kind of info used by the back end
- (info nil)
- ;; the SOURCE-INFO structure describing where this component was
- ;; compiled from
- (source-info *source-info* :type source-info)
+ (name "<unknown>" :type t)
+ ;; When I am a child, this is :NO-IR2-YET.
+ ;; In my adulthood, IR2 stores notes to itself here.
+ ;; After I have left the great wheel and am staring into the GC, this
+ ;; is set to :DEAD to indicate that it's a gruesome error to operate
+ ;; on me (e.g. by using me as *CURRENT-COMPONENT*, or by pushing
+ ;; LAMBDAs onto my NEW-FUNCTIONALS, as in sbcl-0.pre7.115).
+ (info :no-ir2-yet :type (or ir2-component (member :no-ir2-yet :dead)))
;; count of the number of inline expansions we have done while
;; compiling this component, to detect infinite or exponential
;; blowups
;; arguments for the note, or the FUN-TYPE that would have
;; enabled the transformation but failed to match.
(failed-optimizations (make-hash-table :test 'eq) :type hash-table)
- ;; This is similar to NEW-FUNS, but is used when a function has
- ;; already been analyzed, but new references have been added by
- ;; inline expansion. Unlike NEW-FUNS, this is not disjoint from
- ;; COMPONENT-LAMBDAS.
- (reanalyze-funs nil :type list))
+ ;; This is similar to NEW-FUNCTIONALS, but is used when a function
+ ;; has already been analyzed, but new references have been added by
+ ;; inline expansion. Unlike NEW-FUNCTIONALS, this is not disjoint
+ ;; from COMPONENT-LAMBDAS.
+ (reanalyze-functionals nil :type list)
+ (delete-blocks nil :type list)
+ (nlx-info-generated-p nil :type boolean)
+ ;; this is filled by physical environment analysis
+ (dx-lvars nil :type list)
+ ;; The default LOOP in the component.
+ (outer-loop (missing-arg) :type cloop)
+ ;; The current sset index
+ (sset-number 0 :type fixnum))
(defprinter (component :identity t)
name
+ #!+sb-show id
(reanalyze :test reanalyze))
+;;; Check that COMPONENT is suitable for roles which involve adding
+;;; new code. (gotta love imperative programming with lotso in-place
+;;; side effects...)
+(defun aver-live-component (component)
+ ;; FIXME: As of sbcl-0.pre7.115, we're asserting that
+ ;; COMPILE-COMPONENT hasn't happened yet. Might it be even better
+ ;; (certainly stricter, possibly also correct...) to assert that
+ ;; IR1-FINALIZE hasn't happened yet?
+ (aver (not (eql (component-info component) :dead))))
+
;;; Before sbcl-0.7.0, there were :TOPLEVEL things which were magical
;;; in multiple ways. That's since been refactored into the orthogonal
;;; properties "optimized for locall with no arguments" and "externally
(lambda-has-external-references-p clambda)))
(defun component-toplevelish-p (component)
(member (component-kind component)
- '(:toplevel :complex-toplevel)))
+ '(:toplevel :complex-toplevel)))
;;; A CLEANUP structure represents some dynamic binding action. Blocks
;;; are annotated with the current CLEANUP so that dynamic bindings
;;; The "mess-up" action is explicitly represented by a funny function
;;; call or ENTRY node.
;;;
-;;; We guarantee that CLEANUPs only need to be done at block boundaries
-;;; by requiring that the exit continuations initially head their
+;;; We guarantee that CLEANUPs only need to be done at block
+;;; boundaries by requiring that the exit ctrans initially head their
;;; blocks, and then by not merging blocks when there is a cleanup
;;; change.
-(defstruct (cleanup (:copier nil))
+(def!struct (cleanup (:copier nil))
;; the kind of thing that has to be cleaned up
(kind (missing-arg)
- :type (member :special-bind :catch :unwind-protect :block :tagbody))
+ :type (member :special-bind :catch :unwind-protect
+ :block :tagbody :dynamic-extent))
;; the node that messes things up. This is the last node in the
;; non-messed-up environment. Null only temporarily. This could be
;; deleted due to unreachability.
(mess-up nil :type (or node null))
- ;; a list of all the NLX-INFO structures whose NLX-INFO-CLEANUP is
- ;; this cleanup. This is filled in by physical environment analysis.
- (nlx-info nil :type list))
+ ;; For all kinds, except :DYNAMIC-EXTENT: a list of all the NLX-INFO
+ ;; structures whose NLX-INFO-CLEANUP is this cleanup. This is filled
+ ;; in by physical environment analysis.
+ ;;
+ ;; For :DYNAMIC-EXTENT: a list of all DX LVARs, preserved by this
+ ;; cleanup. This is filled when the cleanup is created (now by
+ ;; locall call analysis) and is rechecked by physical environment
+ ;; analysis. (For closures this is a list of the allocating node -
+ ;; during IR1, and a list of the argument LVAR of the allocator -
+ ;; after physical environment analysis.)
+ (info nil :type list))
(defprinter (cleanup :identity t)
kind
mess-up
- (nlx-info :test nlx-info))
+ (info :test info))
;;; A PHYSENV represents the result of physical environment analysis.
;;;
;;; structure is attached to INFO and used to keep track of
;;; associations between these names and less-abstract things (like
;;; TNs, or eventually stack slots and registers). -- WHN 2001-09-29
-(defstruct (physenv (:copier nil))
+(def!struct (physenv (:copier nil))
;; the function that allocates this physical environment
(lambda (missing-arg) :type clambda :read-only t)
- #| ; seems not to be used as of sbcl-0.pre7.51
- ;; a list of all the lambdas that allocate variables in this
- ;; physical environment
- (lambdas nil :type list)
- |#
;; This ultimately converges to a list of all the LAMBDA-VARs and
;; NLX-INFOs needed from enclosing environments by code in this
;; physical environment. In the meantime, it may be
;;; The tail set is somewhat approximate, because it is too early to
;;; be sure which calls will be tail-recursive. Any call that *might*
;;; end up tail-recursive causes TAIL-SET merging.
-(defstruct (tail-set)
+(def!struct (tail-set)
;; a list of all the LAMBDAs in this tail set
(funs nil :type list)
;; our current best guess of the type returned by these functions.
type
(info :test info))
-;;; The NLX-Info structure is used to collect various information
-;;; about non-local exits. This is effectively an annotation on the
-;;; CONTINUATION, although it is accessed by searching in the
+;;; An NLX-INFO structure is used to collect various information about
+;;; non-local exits. This is effectively an annotation on the
+;;; continuation, although it is accessed by searching in the
;;; PHYSENV-NLX-INFO.
-(def!struct (nlx-info (:make-load-form-fun ignore-it))
+(def!struct (nlx-info
+ (:constructor make-nlx-info (cleanup
+ exit
+ &aux
+ (block (first (block-succ
+ (node-block exit))))))
+ (:make-load-form-fun ignore-it))
;; the cleanup associated with this exit. In a catch or
;; unwind-protect, this is the :CATCH or :UNWIND-PROTECT cleanup,
;; and not the cleanup for the escape block. The CLEANUP-KIND of
;; this thus provides a good indication of what kind of exit is
;; being done.
(cleanup (missing-arg) :type cleanup)
- ;; the continuation exited to (the CONT of the EXIT nodes). If this
- ;; exit is from an escape function (CATCH or UNWIND-PROTECT), then
- ;; physical environment analysis deletes the escape function and
- ;; instead has the %NLX-ENTRY use this continuation.
+ ;; the ``continuation'' exited to (the block, succeeding the EXIT
+ ;; nodes). If this exit is from an escape function (CATCH or
+ ;; UNWIND-PROTECT), then physical environment analysis deletes the
+ ;; escape function and instead has the %NLX-ENTRY use this
+ ;; continuation.
;;
- ;; This slot is primarily an indication of where this exit delivers
- ;; its values to (if any), but it is also used as a sort of name to
- ;; allow us to find the NLX-Info that corresponds to a given exit.
- ;; For this purpose, the Entry must also be used to disambiguate,
- ;; since exits to different places may deliver their result to the
- ;; same continuation.
- (continuation (missing-arg) :type continuation)
+ ;; This slot is used as a sort of name to allow us to find the
+ ;; NLX-INFO that corresponds to a given exit. For this purpose, the
+ ;; ENTRY must also be used to disambiguate, since exits to different
+ ;; places may deliver their result to the same continuation.
+ (block (missing-arg) :type cblock)
;; the entry stub inserted by physical environment analysis. This is
- ;; a block containing a call to the %NLX-Entry funny function that
+ ;; a block containing a call to the %NLX-ENTRY funny function that
;; has the original exit destination as its successor. Null only
;; temporarily.
(target nil :type (or cblock null))
+ ;; for a lexical exit it determines whether tag existence check is
+ ;; needed
+ (safe-p nil :type boolean)
;; some kind of info used by the back end
info)
(defprinter (nlx-info :identity t)
- continuation
+ block
target
info)
\f
;;; allows us to easily substitute one for the other without actually
;;; hacking the flow graph.
(def!struct (leaf (:make-load-form-fun ignore-it)
- (:constructor nil))
+ (:include sset-element (number (incf *compiler-sset-counter*)))
+ (:constructor nil))
+ ;; unique ID for debugging
+ #!+sb-show (id (new-object-id) :read-only t)
;; (For public access to this slot, use LEAF-SOURCE-NAME.)
;;
;; the name of LEAF as it appears in the source, e.g. 'FOO or '(SETF
;; skewed enough (e.g. for macro functions or method functions) that
;; we don't want to have that name affect compilation
;;
+ ;; (We use .ANONYMOUS. here more or less the way we'd ordinarily use
+ ;; NIL, but we're afraid to use NIL because it's a symbol which could
+ ;; be the name of a leaf, if only the constant named NIL.)
+ ;;
;; The value of this slot in can affect ordinary runtime behavior,
;; e.g. of special variables and known functions, not just debugging.
;;
;; See also the LEAF-DEBUG-NAME function and the
;; FUNCTIONAL-%DEBUG-NAME slot.
(%source-name (missing-arg)
- :type (or symbol (and cons (satisfies legal-fun-name-p)))
- :read-only t)
+ :type (or symbol (and cons (satisfies legal-fun-name-p)))
+ :read-only t)
;; the type which values of this leaf must have
(type *universal-type* :type ctype)
- ;; where the TYPE information came from:
+ ;; the type which values of this leaf have last been defined to have
+ ;; (but maybe won't have in future, in case of redefinition)
+ (defined-type *universal-type* :type ctype)
+ ;; where the TYPE information came from (in order, from strongest to weakest):
;; :DECLARED, from a declaration.
+ ;; :DEFINED-HERE, from examination of the definition in the same file.
+ ;; :DEFINED, from examination of the definition elsewhere.
+ ;; :DEFINED-METHOD, implicit, piecemeal declarations from CLOS.
;; :ASSUMED, from uses of the object.
- ;; :DEFINED, from examination of the definition.
- ;; FIXME: This should be a named type. (LEAF-WHERE-FROM? Or
- ;; perhaps just WHERE-FROM, since it's not just used in LEAF,
- ;; but also in various DEFINE-INFO-TYPEs in globaldb.lisp,
- ;; and very likely elsewhere too.)
- (where-from :assumed :type (member :declared :assumed :defined))
+ (where-from :assumed :type (member :declared :assumed :defined-here :defined :defined-method))
;; list of the REF nodes for this leaf
(refs () :type list)
;; true if there was ever a REF or SET node for this leaf. This may
;; be true when REFS and SETS are null, since code can be deleted.
(ever-used nil :type boolean)
+ ;; is it declared dynamic-extent, or truly-dynamic-extent?
+ (extent nil :type (member nil :maybe-dynamic :always-dynamic :indefinite))
;; some kind of info used by the back end
(info nil))
+(defun leaf-dynamic-extent (leaf)
+ (let ((extent (leaf-extent leaf)))
+ (unless (member extent '(nil :indefinite))
+ extent)))
+
;;; LEAF name operations
;;;
;;; KLUDGE: wants CLOS..
(defun leaf-has-source-name-p (leaf)
(not (eq (leaf-%source-name leaf)
- '.anonymous.)))
+ '.anonymous.)))
(defun leaf-source-name (leaf)
(aver (leaf-has-source-name-p leaf))
(leaf-%source-name leaf))
;; it looks as though it's never interesting to get debug names
;; from them, so it's moot. -- WHN)
(leaf-source-name leaf)))
+(defun leaf-%debug-name (leaf)
+ (when (functional-p leaf)
+ (functional-%debug-name leaf)))
;;; The CONSTANT structure is used to represent known constant values.
-;;; If NAME is not null, then it is the name of the named constant
-;;; which this leaf corresponds to, otherwise this is an anonymous
-;;; constant.
-(def!struct (constant (:include leaf))
+;;; Since the same constant leaf may be shared between named and anonymous
+;;; constants, %SOURCE-NAME is never used.
+(def!struct (constant (:constructor make-constant (value
+ &aux
+ (type (ctype-of value))
+ (%source-name '.anonymous.)
+ (where-from :defined)))
+ (:include leaf))
;; the value of the constant
- (value nil :type t))
+ (value (missing-arg) :type t)
+ ;; Boxed TN for this constant, if any.
+ (boxed-tn nil :type (or null tn)))
(defprinter (constant :identity t)
- (%source-name :test %source-name)
value)
;;; The BASIC-VAR structure represents information common to all
;;; variables which don't correspond to known local functions.
(def!struct (basic-var (:include leaf)
- (:constructor nil))
+ (:constructor nil))
;; Lists of the set nodes for this variable.
(sets () :type list))
;;; The GLOBAL-VAR structure represents a value hung off of the symbol
-;;; NAME. We use a :CONSTANT VAR when we know that the thing is a
-;;; constant, but don't know what the value is at compile time.
+;;; NAME.
(def!struct (global-var (:include basic-var))
;; kind of variable described
(kind (missing-arg)
- :type (member :special :global-function :global)))
+ :type (member :special :global-function :global :unknown)))
(defprinter (global-var :identity t)
%source-name
+ #!+sb-show id
(type :test (not (eq type *universal-type*)))
+ (defined-type :test (not (eq defined-type *universal-type*)))
(where-from :test (not (eq where-from :assumed)))
kind)
-;;; The SLOT-ACCESSOR structure represents slot accessor functions. It
-;;; is a subtype of GLOBAL-VAR to make it look more like a normal
-;;; function.
-(def!struct (slot-accessor (:include global-var
- (where-from :defined)
- (kind :global-function)))
- ;; The description of the structure that this is an accessor for.
- (for (missing-arg) :type sb!xc:class)
- ;; The slot description of the slot.
- (slot (missing-arg)))
-(defprinter (slot-accessor :identity t)
- %source-name
- for
- slot)
-
;;; A DEFINED-FUN represents a function that is defined in the same
;;; compilation block, or that has an inline expansion, or that has a
;;; non-NIL INLINEP value. Whenever we change the INLINEP state (i.e.
;;; an inline proclamation) we copy the structure so that former
;;; INLINEP values are preserved.
(def!struct (defined-fun (:include global-var
- (where-from :defined)
- (kind :global-function)))
+ (where-from :defined)
+ (kind :global-function)))
;; The values of INLINEP and INLINE-EXPANSION initialized from the
;; global environment.
(inlinep nil :type inlinep)
(inline-expansion nil :type (or cons null))
- ;; the block-local definition of this function (either because it
- ;; was semi-inline, or because it was defined in this block). If
- ;; this function is not an entry point, then this may be deleted or
- ;; LET-converted. Null if we haven't converted the expansion yet.
- (functional nil :type (or functional null)))
+ ;; List of functionals corresponding to this DEFINED-FUN: either from the
+ ;; conversion of a NAMED-LAMBDA, or from inline-expansion (see
+ ;; RECOGNIZE-KNOWN-CALL) - we need separate functionals for each policy in
+ ;; which the function is used.
+ (functionals nil :type list))
(defprinter (defined-fun :identity t)
%source-name
+ #!+sb-show id
inlinep
- (functional :test functional))
+ (functionals :test functionals))
\f
;;;; function stuff
;;; We don't normally manipulate function types for defined functions,
;;; but if someone wants to know, an approximation is there.
(def!struct (functional (:include leaf
- (%source-name '.anonymous.)
- (where-from :defined)
- (type (specifier-type 'function))))
+ (%source-name '.anonymous.)
+ (where-from :defined)
+ (type (specifier-type 'function))))
;; (For public access to this slot, use LEAF-DEBUG-NAME.)
;;
;; the name of FUNCTIONAL for debugging purposes, or NIL if we
;; should just let the SOURCE-NAME fall through
- ;;
+ ;;
;; Unlike the SOURCE-NAME slot, this slot's value should never
;; affect ordinary code behavior, only debugging/diagnostic behavior.
;;
- ;; The value of this slot can be anything, except that it shouldn't
- ;; be a legal function name, since otherwise debugging gets
- ;; confusing. (If a legal function name is a good name for the
- ;; function, it should be in %SOURCE-NAME, and then we shouldn't
- ;; need a %DEBUG-NAME.) In SBCL as of 0.pre7.87, it's always a
- ;; string unless it's NIL, since that's how CMU CL represented debug
- ;; names. However, eventually I (WHN) think it we should start using
- ;; list values instead, since they have much nicer print properties
- ;; (abbreviation, skipping package prefixes when unneeded, and
- ;; renaming package prefixes when we do things like renaming SB!EXT
- ;; to SB-EXT).
+ ;; Ha. Ah, the starry-eyed idealism of the writer of the above
+ ;; paragraph. FUNCTION-LAMBDA-EXPRESSION's behaviour, as of
+ ;; sbcl-0.7.11.x, differs if the name of the a function is a string
+ ;; or not, as if it is a valid function name then it can look for an
+ ;; inline expansion.
;;
;; E.g. for the function which implements (DEFUN FOO ...), we could
;; have
;; for the function which implements the top level form
;; (IN-PACKAGE :FOO) we could have
;; %SOURCE-NAME=NIL
- ;; %DEBUG-NAME="top level form (IN-PACKAGE :FOO)"
+ ;; %DEBUG-NAME=(TOP-LEVEL-FORM (IN-PACKAGE :FOO)
;; for the function which implements FOO in
;; (DEFUN BAR (...) (FLET ((FOO (...) ...)) ...))
;; we could have
;; %SOURCE-NAME=FOO
- ;; %DEBUG-NAME="FLET FOO in BAR"
+ ;; %DEBUG-NAME=(FLET FOO)
;; and for the function which implements FOO in
;; (DEFMACRO FOO (...) ...)
;; we could have
;; %SOURCE-NAME=FOO (or maybe .ANONYMOUS.?)
- ;; %DEBUG-NAME="DEFMACRO FOO"
+ ;; %DEBUG-NAME=(MACRO-FUNCTION FOO)
(%debug-name nil
- :type (or null (not (satisfies legal-fun-name-p)))
- :read-only t)
+ :type (or null (not (satisfies legal-fun-name-p)))
+ :read-only t)
;; some information about how this function is used. These values
;; are meaningful:
;;
;; NIL
- ;; an ordinary function, callable using local call
+ ;; an ordinary function, callable using local call
;;
;; :LET
- ;; a lambda that is used in only one local call, and has in
- ;; effect been substituted directly inline. The return node is
- ;; deleted, and the result is computed with the actual result
- ;; continuation for the call.
+ ;; a lambda that is used in only one local call, and has in
+ ;; effect been substituted directly inline. The return node is
+ ;; deleted, and the result is computed with the actual result
+ ;; lvar for the call.
;;
;; :MV-LET
- ;; Similar to :LET, but the call is an MV-CALL.
+ ;; Similar to :LET (as per FUNCTIONAL-LETLIKE-P), but the call
+ ;; is an MV-CALL.
;;
;; :ASSIGNMENT
- ;; similar to a LET, but can have other than one call as long as
- ;; there is at most one non-tail call.
+ ;; similar to a LET (as per FUNCTIONAL-SOMEWHAT-LETLIKE-P), but
+ ;; can have other than one call as long as there is at most
+ ;; one non-tail call.
;;
;; :OPTIONAL
- ;; a lambda that is an entry-point for an optional-dispatch.
- ;; Similar to NIL, but requires greater caution, since local call
- ;; analysis may create new references to this function. Also, the
- ;; function cannot be deleted even if it has *no* references. The
- ;; OPTIONAL-DISPATCH is in the LAMDBA-OPTIONAL-DISPATCH.
+ ;; a lambda that is an entry point for an OPTIONAL-DISPATCH.
+ ;; Similar to NIL, but requires greater caution, since local call
+ ;; analysis may create new references to this function. Also, the
+ ;; function cannot be deleted even if it has *no* references. The
+ ;; OPTIONAL-DISPATCH is in the LAMDBA-OPTIONAL-DISPATCH.
;;
;; :EXTERNAL
- ;; an external entry point lambda. The function it is an entry
- ;; for is in the ENTRY-FUN slot.
+ ;; an external entry point lambda. The function it is an entry
+ ;; for is in the ENTRY-FUN slot.
;;
;; :TOPLEVEL
- ;; a top level lambda, holding a compiled top level form.
- ;; Compiled very much like NIL, but provides an indication of
- ;; top level context. A :TOPLEVEL lambda should have *no*
- ;; references. Its ENTRY-FUN is a self-pointer.
+ ;; a top level lambda, holding a compiled top level form.
+ ;; Compiled very much like NIL, but provides an indication of
+ ;; top level context. A :TOPLEVEL lambda should have *no*
+ ;; references. Its ENTRY-FUN is a self-pointer.
;;
;; :TOPLEVEL-XEP
- ;; After a component is compiled, we clobber any top level code
- ;; references to its non-closure XEPs with dummy FUNCTIONAL
- ;; structures having this kind. This prevents the retained
- ;; top level code from holding onto the IR for the code it
- ;; references.
+ ;; After a component is compiled, we clobber any top level code
+ ;; references to its non-closure XEPs with dummy FUNCTIONAL
+ ;; structures having this kind. This prevents the retained
+ ;; top level code from holding onto the IR for the code it
+ ;; references.
;;
;; :ESCAPE
;; :CLEANUP
- ;; special functions used internally by CATCH and UNWIND-PROTECT.
- ;; These are pretty much like a normal function (NIL), but are
- ;; treated specially by local call analysis and stuff. Neither
- ;; kind should ever be given an XEP even though they appear as
- ;; args to funny functions. An :ESCAPE function is never actually
- ;; called, and thus doesn't need to have code generated for it.
+ ;; special functions used internally by CATCH and UNWIND-PROTECT.
+ ;; These are pretty much like a normal function (NIL), but are
+ ;; treated specially by local call analysis and stuff. Neither
+ ;; kind should ever be given an XEP even though they appear as
+ ;; args to funny functions. An :ESCAPE function is never actually
+ ;; called, and thus doesn't need to have code generated for it.
;;
;; :DELETED
- ;; This function has been found to be uncallable, and has been
- ;; marked for deletion.
+ ;; This function has been found to be uncallable, and has been
+ ;; marked for deletion.
+ ;;
+ ;; :ZOMBIE
+ ;; Effectless [MV-]LET; has no BIND node.
(kind nil :type (member nil :optional :deleted :external :toplevel
- :escape :cleanup :let :mv-let :assignment
- :toplevel-xep))
+ :escape :cleanup :let :mv-let :assignment
+ :zombie :toplevel-xep))
;; Is this a function that some external entity (e.g. the fasl dumper)
;; refers to, so that even when it appears to have no references, it
;; shouldn't be deleted? In the old days (before
;; KIND was :TOPLEVEL. Now it must be set explicitly, both for
;; :TOPLEVEL functions and for any other kind of functions that we
;; want to dump or return from #'CL:COMPILE or whatever.
- (has-external-references-p nil)
+ (has-external-references-p nil)
;; In a normal function, this is the external entry point (XEP)
;; lambda for this function, if any. Each function that is used
;; other than in a local call has an XEP, and all of the
;;
;; With all other kinds, this is null.
(entry-fun nil :type (or functional null))
- ;; the value of any inline/notinline declaration for a local function
+ ;; the value of any inline/notinline declaration for a local
+ ;; function (or NIL in any case if no inline expansion is available)
(inlinep nil :type inlinep)
;; If we have a lambda that can be used as in inline expansion for
;; this function, then this is it. If there is no source-level
- ;; lambda corresponding to this function then this is Null (but then
+ ;; lambda corresponding to this function then this is null (but then
;; INLINEP will always be NIL as well.)
(inline-expansion nil :type list)
- ;; the lexical environment that the inline-expansion should be converted in
+ ;; the lexical environment that the INLINE-EXPANSION should be converted in
(lexenv *lexenv* :type lexenv)
;; the original function or macro lambda list, or :UNSPECIFIED if
;; this is a compiler created function
(arg-documentation nil :type (or list (member :unspecified)))
+ ;; the documentation string for the lambda
+ (documentation nil :type (or null string))
+ ;; Node, allocating closure for this lambda. May be NIL when we are
+ ;; sure that no closure is needed.
+ (allocator nil :type (or null combination))
;; various rare miscellaneous info that drives code generation & stuff
- (plist () :type list))
+ (plist () :type list)
+ ;; xref information for this functional (only used for functions with an
+ ;; XEP)
+ (xref () :type list)
+ ;; True if this functional was created from an inline expansion. This
+ ;; is either T, or the GLOBAL-VAR for which it is an expansion.
+ (inline-expanded nil))
(defprinter (functional :identity t)
%source-name
- %debug-name)
+ %debug-name
+ #!+sb-show id)
+
+;;; Is FUNCTIONAL LET-converted? (where we're indifferent to whether
+;;; it returns one value or multiple values)
+(defun functional-letlike-p (functional)
+ (member (functional-kind functional)
+ '(:let :mv-let)))
+
+;;; Is FUNCTIONAL sorta LET-converted? (where even an :ASSIGNMENT counts)
+;;;
+;;; FIXME: I (WHN) don't understand this one well enough to give a good
+;;; definition or even a good function name, it's just a literal copy
+;;; of a CMU CL idiom. Does anyone have a better name or explanation?
+(defun functional-somewhat-letlike-p (functional)
+ (or (functional-letlike-p functional)
+ (eql (functional-kind functional) :assignment)))
;;; FUNCTIONAL name operations
(defun functional-debug-name (functional)
;; anonymous. In SBCL (as opposed to CMU CL) we make all
;; FUNCTIONALs have debug names. The CMU CL code didn't bother
;; in many FUNCTIONALs, especially those which were likely to be
- ;; optimized away before the user saw them. However, getting
+ ;; optimized away before the user saw them. However, getting
;; that right requires a global understanding of the code,
;; which seems bad, so we just require names for everything.
(leaf-source-name functional)))
;;; optional, keyword and rest arguments are handled by transforming
;;; into simpler stuff.
(def!struct (clambda (:include functional)
- (:conc-name lambda-)
- (:predicate lambda-p)
- (:constructor make-lambda)
- (:copier copy-lambda))
+ (:conc-name lambda-)
+ (:predicate lambda-p)
+ (:constructor make-lambda)
+ (:copier copy-lambda))
;; list of LAMBDA-VAR descriptors for arguments
(vars nil :type list :read-only t)
;; If this function was ever a :OPTIONAL function (an entry-point
;; bind (because there are no variables left), but have not yet
;; actually deleted the LAMBDA yet.
(bind nil :type (or bind null))
- ;; the RETURN node for this LAMBDA, or NIL if it has been deleted.
- ;; This marks the end of the lambda, receiving the result of the
- ;; body. In a LET, the return node is deleted, and the body delivers
- ;; the value to the actual continuation. The return may also be
+ ;; the RETURN node for this LAMBDA, or NIL if it has been
+ ;; deleted. This marks the end of the lambda, receiving the result
+ ;; of the body. In a LET, the return node is deleted, and the body
+ ;; delivers the value to the actual lvar. The return may also be
;; deleted if it is unreachable.
(return nil :type (or creturn null))
;; If this CLAMBDA is a LET, then this slot holds the LAMBDA whose
;; objects (closed-over LAMBDA-VARs and XEPs) which this lambda
;; depends on in such a way that DFO shouldn't put them in separate
;; components.
- (calls-or-closes nil :type list)
+ (calls-or-closes (make-sset) :type (or null sset))
;; the TAIL-SET that this LAMBDA is in. This is null during creation.
;;
;; In CMU CL, and old SBCL, this was also NILed out when LET
;; retain it so that if the LET is deleted (due to a lack of vars),
;; we will still have caller's lexenv to figure out which cleanup is
;; in effect.
- (call-lexenv nil :type (or lexenv null)))
+ (call-lexenv nil :type (or lexenv null))
+ ;; list of embedded lambdas
+ (children nil :type list)
+ (parent nil :type (or clambda null))
+ (allow-instrumenting *allow-instrumenting* :type boolean)
+ ;; True if this is a system introduced lambda: it may contain user code, but
+ ;; the lambda itself is not, and the bindings introduced by it are considered
+ ;; transparent by the nested DX analysis.
+ (system-lambda-p nil :type boolean))
(defprinter (clambda :conc-name lambda- :identity t)
%source-name
%debug-name
+ #!+sb-show id
+ kind
(type :test (not (eq type *universal-type*)))
(where-from :test (not (eq where-from :assumed)))
(vars :prin1 (mapcar #'leaf-source-name vars)))
;; the total number of required and optional arguments. Args at
;; positions >= to this are &REST, &KEY or illegal args.
(max-args 0 :type unsigned-byte)
- ;; list of the LAMBDAs which are the entry points for non-rest,
- ;; non-key calls. The entry for MIN-ARGS is first, MIN-ARGS+1
- ;; second, ... MAX-ARGS last. The last entry-point always calls the
- ;; main entry; in simple cases it may be the main entry.
+ ;; list of the (maybe delayed) LAMBDAs which are the entry points
+ ;; for non-rest, non-key calls. The entry for MIN-ARGS is first,
+ ;; MIN-ARGS+1 second, ... MAX-ARGS last. The last entry-point always
+ ;; calls the main entry; in simple cases it may be the main entry.
(entry-points nil :type list)
;; an entry point which takes MAX-ARGS fixed arguments followed by
;; an argument context pointer and an argument count. This entry
(defprinter (optional-dispatch :identity t)
%source-name
%debug-name
+ #!+sb-show id
(type :test (not (eq type *universal-type*)))
(where-from :test (not (eq where-from :assumed)))
arglist
;; the kind of argument being described. Required args only have arg
;; info structures if they are special.
(kind (missing-arg)
- :type (member :required :optional :keyword :rest
- :more-context :more-count))
+ :type (member :required :optional :keyword :rest
+ :more-context :more-count))
;; If true, this is the VAR for SUPPLIED-P variable of a keyword or
;; optional arg. This is true for keywords with non-constant
;; defaults even when there is no user-specified supplied-p var.
;; the default for a keyword or optional, represented as the
;; original Lisp code. This is set to NIL in &KEY arguments that are
;; defaulted using the SUPPLIED-P arg.
+ ;;
+ ;; For &REST arguments this may contain information about more context
+ ;; the rest list comes from.
(default nil :type t)
;; the actual key for a &KEY argument. Note that in ANSI CL this is
;; not necessarily a keyword: (DEFUN FOO (&KEY ((BAR BAR))) ...).
;;; end must check for and ignore unreferenced variables. Note that a
;;; deleted LAMBDA-VAR may have sets; in this case the back end is
;;; still responsible for propagating the SET-VALUE to the set's CONT.
-(def!struct (lambda-var (:include basic-var))
+(!def-boolean-attribute lambda-var
;; true if this variable has been declared IGNORE
- (ignorep nil :type boolean)
- ;; the CLAMBDA that this var belongs to. This may be null when we are
- ;; building a lambda during IR1 conversion.
- (home nil :type (or null clambda))
+ ignore
;; This is set by physical environment analysis if it chooses an
;; indirect (value cell) representation for this variable because it
;; is both set and closed over.
- (indirect nil :type boolean)
+ indirect
+ ;; true if the last reference has been deleted (and new references
+ ;; should not be made)
+ deleted
+ ;; This is set by physical environment analysis if, should it be an
+ ;; indirect lambda-var, an actual value cell object must be
+ ;; allocated for this variable because one or more of the closures
+ ;; that refer to it are not dynamic-extent. Note that both
+ ;; attributes must be set for the value-cell object to be created.
+ explicit-value-cell
+ )
+
+(def!struct (lambda-var (:include basic-var))
+ (flags (lambda-var-attributes)
+ :type attributes)
+ ;; the CLAMBDA that this var belongs to. This may be null when we are
+ ;; building a lambda during IR1 conversion.
+ (home nil :type (or null clambda))
;; The following two slots are only meaningful during IR1 conversion
;; of hairy lambda vars:
;;
;; propagation. This is left null by the lambda pre-pass if it
;; determine that this is a set closure variable, and is thus not a
;; good subject for flow analysis.
- (constraints nil :type (or sset null)))
+ (constraints nil :type (or null t #| FIXME: conset |#))
+ ;; Content-addressed indices for the CONSTRAINTs on this variable.
+ ;; These are solely used by FIND-CONSTRAINT
+ (ctype-constraints nil :type (or null hash-table))
+ (eq-constraints nil :type (or null hash-table))
+ ;; sorted sets of constraints we like to iterate over
+ (eql-var-constraints nil :type (or null (array t 1)))
+ (inheritable-constraints nil :type (or null (array t 1)))
+ (private-constraints nil :type (or null (array t 1)))
+ ;; Initial type of a LET variable as last seen by PROPAGATE-FROM-SETS.
+ (last-initial-type *universal-type* :type ctype)
+ ;; The FOP handle of the lexical variable represented by LAMBDA-VAR
+ ;; in the fopcompiler.
+ (fop-value nil))
(defprinter (lambda-var :identity t)
%source-name
+ #!+sb-show id
(type :test (not (eq type *universal-type*)))
(where-from :test (not (eq where-from :assumed)))
- (ignorep :test ignorep)
+ (flags :test (not (zerop flags))
+ :prin1 (decode-lambda-var-attributes flags))
(arg-info :test arg-info)
(specvar :test specvar))
+
+(defmacro lambda-var-ignorep (var)
+ `(lambda-var-attributep (lambda-var-flags ,var) ignore))
+(defmacro lambda-var-indirect (var)
+ `(lambda-var-attributep (lambda-var-flags ,var) indirect))
+(defmacro lambda-var-deleted (var)
+ `(lambda-var-attributep (lambda-var-flags ,var) deleted))
+(defmacro lambda-var-explicit-value-cell (var)
+ `(lambda-var-attributep (lambda-var-flags ,var) explicit-value-cell))
\f
;;;; basic node types
;;; A REF represents a reference to a LEAF. REF-REOPTIMIZE is
;;; initially (and forever) NIL, since REFs don't receive any values
;;; and don't have any IR1 optimizer.
-(defstruct (ref (:include node (:reoptimize nil))
- (:constructor make-ref (derived-type leaf))
- (:copier nil))
+(def!struct (ref (:include valued-node (reoptimize nil))
+ (:constructor make-ref
+ (leaf
+ &optional (%source-name '.anonymous.)
+ &aux (leaf-type (leaf-type leaf))
+ (derived-type
+ (make-single-value-type leaf-type))))
+ (:copier nil))
;; The leaf referenced.
- (leaf nil :type leaf))
+ (leaf nil :type leaf)
+ ;; CONSTANT nodes are always anonymous, since we wish to coalesce named and
+ ;; unnamed constants that are equivalent, we need to keep track of the
+ ;; reference name for XREF.
+ (%source-name (missing-arg) :type symbol :read-only t))
(defprinter (ref :identity t)
+ #!+sb-show id
+ (%source-name :test (neq %source-name '.anonymous.))
leaf)
;;; Naturally, the IF node always appears at the end of a block.
-;;; NODE-CONT is a dummy continuation, and is there only to keep
-;;; people happy.
-(defstruct (cif (:include node)
- (:conc-name if-)
- (:predicate if-p)
- (:constructor make-if)
- (:copier copy-if))
- ;; CONTINUATION for the predicate
- (test (missing-arg) :type continuation)
+(def!struct (cif (:include node)
+ (:conc-name if-)
+ (:predicate if-p)
+ (:constructor make-if)
+ (:copier copy-if))
+ ;; LVAR for the predicate
+ (test (missing-arg) :type lvar)
;; the blocks that we execute next in true and false case,
;; respectively (may be the same)
(consequent (missing-arg) :type cblock)
- (alternative (missing-arg) :type cblock))
+ (consequent-constraints nil :type (or null t #| FIXME: conset |#))
+ (alternative (missing-arg) :type cblock)
+ (alternative-constraints nil :type (or null t #| FIXME: conset |#)))
(defprinter (cif :conc-name if- :identity t)
- (test :prin1 (continuation-use test))
+ (test :prin1 (lvar-uses test))
consequent
alternative)
-(defstruct (cset (:include node
- (derived-type *universal-type*))
- (:conc-name set-)
- (:predicate set-p)
- (:constructor make-set)
- (:copier copy-set))
+(def!struct (cset (:include valued-node
+ (derived-type (make-single-value-type
+ *universal-type*)))
+ (:conc-name set-)
+ (:predicate set-p)
+ (:constructor make-set)
+ (:copier copy-set))
;; descriptor for the variable set
(var (missing-arg) :type basic-var)
- ;; continuation for the value form
- (value (missing-arg) :type continuation))
+ ;; LVAR for the value form
+ (value (missing-arg) :type lvar))
(defprinter (cset :conc-name set- :identity t)
var
- (value :prin1 (continuation-use value)))
+ (value :prin1 (lvar-uses value)))
;;; The BASIC-COMBINATION structure is used to represent both normal
-;;; and multiple value combinations. In a local function call, this
+;;; and multiple value combinations. In a let-like function call, this
;;; node appears at the end of its block and the body of the called
-;;; function appears as the successor. The NODE-CONT remains the
-;;; continuation which receives the value of the call.
-(defstruct (basic-combination (:include node)
- (:constructor nil)
- (:copier nil))
- ;; continuation for the function
- (fun (missing-arg) :type continuation)
- ;; list of CONTINUATIONs for the args. In a local call, an argument
- ;; continuation may be replaced with NIL to indicate that the
- ;; corresponding variable is unreferenced, and thus no argument
- ;; value need be passed.
+;;; function appears as the successor; the NODE-LVAR is null.
+(def!struct (basic-combination (:include valued-node)
+ (:constructor nil)
+ (:copier nil))
+ ;; LVAR for the function
+ (fun (missing-arg) :type lvar)
+ ;; list of LVARs for the args. In a local call, an argument lvar may
+ ;; be replaced with NIL to indicate that the corresponding variable
+ ;; is unreferenced, and thus no argument value need be passed.
(args nil :type list)
;; the kind of function call being made. :LOCAL means that this is a
;; local call to a function in the same component, and that argument
- ;; syntax checking has been done, etc. Calls to known global
- ;; functions are represented by storing the FUNCTION-INFO for the
- ;; function in this slot. :FULL is a call to an (as yet) unknown
- ;; function. :ERROR is like :FULL, but means that we have discovered
- ;; that the call contains an error, and should not be reconsidered
- ;; for optimization.
- (kind :full :type (or (member :local :full :error) function-info))
+ ;; syntax checking has been done, etc. Calls to known global
+ ;; functions are represented by storing :KNOWN in this slot and the
+ ;; FUN-INFO for that function in the FUN-INFO slot. :FULL is a call
+ ;; to an (as yet) unknown function, or to a known function declared
+ ;; NOTINLINE. :ERROR is like :FULL, but means that we have
+ ;; discovered that the call contains an error, and should not be
+ ;; reconsidered for optimization.
+ (kind :full :type (member :local :full :error :known))
+ ;; if a call to a known global function, contains the FUN-INFO.
+ (fun-info nil :type (or fun-info null))
+ ;; Untrusted type we have asserted for this combination.
+ (type-validated-for-leaf nil)
;; some kind of information attached to this node by the back end
- (info nil))
+ (info nil)
+ (step-info))
;;; The COMBINATION node represents all normal function calls,
;;; including FUNCALL. This is distinct from BASIC-COMBINATION so that
;;; an MV-COMBINATION isn't COMBINATION-P.
-(defstruct (combination (:include basic-combination)
- (:constructor make-combination (fun))
- (:copier nil)))
+(def!struct (combination (:include basic-combination)
+ (:constructor make-combination (fun))
+ (:copier nil)))
(defprinter (combination :identity t)
- (fun :prin1 (continuation-use fun))
+ #!+sb-show id
+ (fun :prin1 (lvar-uses fun))
(args :prin1 (mapcar (lambda (x)
- (if x
- (continuation-use x)
- "<deleted>"))
- args)))
+ (if x
+ (lvar-uses x)
+ "<deleted>"))
+ args)))
;;; An MV-COMBINATION is to MULTIPLE-VALUE-CALL as a COMBINATION is to
;;; FUNCALL. This is used to implement all the multiple-value
;;; receiving forms.
-(defstruct (mv-combination (:include basic-combination)
- (:constructor make-mv-combination (fun))
- (:copier nil)))
+(def!struct (mv-combination (:include basic-combination)
+ (:constructor make-mv-combination (fun))
+ (:copier nil)))
(defprinter (mv-combination)
- (fun :prin1 (continuation-use fun))
- (args :prin1 (mapcar #'continuation-use args)))
+ (fun :prin1 (lvar-uses fun))
+ (args :prin1 (mapcar #'lvar-uses args)))
;;; The BIND node marks the beginning of a lambda body and represents
;;; the creation and initialization of the variables.
-(defstruct (bind (:include node)
- (:copier nil))
+(def!struct (bind (:include node)
+ (:copier nil))
;; the lambda we are binding variables for. Null when we are
;; creating the LAMBDA during IR1 translation.
(lambda nil :type (or clambda null)))
;;; return values and represents the control transfer on return. This
;;; is also where we stick information used for TAIL-SET type
;;; inference.
-(defstruct (creturn (:include node)
- (:conc-name return-)
- (:predicate return-p)
- (:constructor make-return)
- (:copier copy-return))
+(def!struct (creturn (:include node)
+ (:conc-name return-)
+ (:predicate return-p)
+ (:constructor make-return)
+ (:copier copy-return))
;; the lambda we are returning from. Null temporarily during
;; ir1tran.
(lambda nil :type (or clambda null))
- ;; the continuation which yields the value of the lambda
- (result (missing-arg) :type continuation)
+ ;; the lvar which yields the value of the lambda
+ (result (missing-arg) :type lvar)
;; the union of the node-derived-type of all uses of the result
;; other than by a local call, intersected with the result's
;; asserted-type. If there are no non-call uses, this is
(defprinter (creturn :conc-name return- :identity t)
lambda
result-type)
+
+;;; The CAST node represents type assertions. The check for
+;;; TYPE-TO-CHECK is performed and then the VALUE is declared to be of
+;;; type ASSERTED-TYPE.
+(def!struct (cast (:include valued-node)
+ (:constructor %make-cast))
+ (asserted-type (missing-arg) :type ctype)
+ (type-to-check (missing-arg) :type ctype)
+ ;; an indication of what we have proven about how this type
+ ;; assertion is satisfied:
+ ;;
+ ;; NIL
+ ;; No type check is necessary (VALUE type is a subtype of the TYPE-TO-CHECK.)
+ ;;
+ ;; :EXTERNAL
+ ;; Type check will be performed by NODE-DEST.
+ ;;
+ ;; T
+ ;; A type check is needed.
+ (%type-check t :type (member t :external nil))
+ ;; the lvar which is checked
+ (value (missing-arg) :type lvar))
+(defprinter (cast :identity t)
+ %type-check
+ value
+ asserted-type
+ type-to-check)
\f
;;;; non-local exit support
;;;;
;;;; lexical exits.
;;; The ENTRY node serves to mark the start of the dynamic extent of a
-;;; lexical exit. It is the mess-up node for the corresponding :Entry
+;;; lexical exit. It is the mess-up node for the corresponding :ENTRY
;;; cleanup.
-(defstruct (entry (:include node)
- (:copier nil))
- ;; All of the Exit nodes for potential non-local exits to this point.
+(def!struct (entry (:include node)
+ (:copier nil))
+ ;; All of the EXIT nodes for potential non-local exits to this point.
(exits nil :type list)
;; The cleanup for this entry. NULL only temporarily.
(cleanup nil :type (or cleanup null)))
-(defprinter (entry :identity t))
+(defprinter (entry :identity t)
+ #!+sb-show id)
;;; The EXIT node marks the place at which exit code would be emitted,
;;; if necessary. This is interposed between the uses of the exit
;;; continuation and the exit continuation's DEST. Instead of using
;;; the returned value being delivered directly to the exit
-;;; continuation, it is delivered to our VALUE continuation. The
-;;; original exit continuation is the exit node's CONT.
-(defstruct (exit (:include node)
- (:copier nil))
- ;; The Entry node that this is an exit for. If null, this is a
+;;; continuation, it is delivered to our VALUE lvar. The original exit
+;;; lvar is the exit node's LVAR; physenv analysis also makes it the
+;;; lvar of %NLX-ENTRY call.
+(def!struct (exit (:include valued-node)
+ (:copier nil))
+ ;; the ENTRY node that this is an exit for. If null, this is a
;; degenerate exit. A degenerate exit is used to "fill" an empty
;; block (which isn't allowed in IR1.) In a degenerate exit, Value
;; is always also null.
(entry nil :type (or entry null))
- ;; The continuation yeilding the value we are to exit with. If NIL,
- ;; then no value is desired (as in GO).
- (value nil :type (or continuation null)))
+ ;; the lvar yielding the value we are to exit with. If NIL, then no
+ ;; value is desired (as in GO).
+ (value nil :type (or lvar null))
+ (nlx-info nil :type (or nlx-info null)))
(defprinter (exit :identity t)
+ #!+sb-show id
(entry :test entry)
(value :test value))
\f
;;;; miscellaneous IR1 structures
-(defstruct (undefined-warning
- #-no-ansi-print-object
- (:print-object (lambda (x s)
- (print-unreadable-object (x s :type t)
- (prin1 (undefined-warning-name x) s))))
- (:copier nil))
+(def!struct (undefined-warning
+ #-no-ansi-print-object
+ (:print-object (lambda (x s)
+ (print-unreadable-object (x s :type t)
+ (prin1 (undefined-warning-name x) s))))
+ (:copier nil))
;; the name of the unknown thing
(name nil :type (or symbol list))
;; the kind of reference to NAME
;;; a helper for the POLICY macro, defined late here so that the
;;; various type tests can be inlined
(declaim (ftype (function ((or list lexenv node functional)) list)
- %coerce-to-policy))
+ %coerce-to-policy))
(defun %coerce-to-policy (thing)
(let ((result (etypecase thing
- (list thing)
- (lexenv (lexenv-policy thing))
- (node (lexenv-policy (node-lexenv thing)))
- (functional (lexenv-policy (functional-lexenv thing))))))
+ (list thing)
+ (lexenv (lexenv-policy thing))
+ (node (lexenv-policy (node-lexenv thing)))
+ (functional (lexenv-policy (functional-lexenv thing))))))
;; Test the first element of the list as a rudimentary sanity
;; that it really does look like a valid policy.
(aver (or (null result) (policy-quality-name-p (caar result))))
;;;; Freeze some structure types to speed type testing.
#!-sb-fluid
-(declaim (freeze-type node leaf lexenv continuation cblock component cleanup
- physenv tail-set nlx-info))
+(declaim (freeze-type node leaf lexenv ctran lvar cblock component cleanup
+ physenv tail-set nlx-info))