;; 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
+ ;; continuations. NEXT can have a non-null value if the next node
;; has already been determined.
;;
;; :DELETED
;; and will be null in a :INSIDE-BLOCK continuation when this is the
;; CONT of the LAST.
(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
+ ;; BLOCK's START-USES indicate whether NIL means no uses or more
;; than one use.
(use nil :type (or node null))
;; the basic block this continuation is in. This is null only in
;; 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.
- ;;
- ;; 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))
;; Cached type which is checked by DEST. If NIL, then this must be
;; recomputed: see CONTINUATION-EXTERNALLY-CHECKABLE-TYPE.
(%externally-checkable-type nil :type (or null ctype))
(lexenv-uses nil :type list))
(def!method print-object ((x continuation) stream)
- (print-unreadable-object (x stream :type t :identity t)))
+ (print-unreadable-object (x stream :type t :identity t)
+ (format stream " #~D" (cont-num x))))
(defstruct (node (:constructor nil)
(:copier nil))
;; unique ID for debugging
#!+sb-show (id (new-object-id) :read-only t)
- ;; the bottom-up derived type for this node. This does not take into
- ;; consideration output type assertions on this node (actually on its CONT).
+ ;; the bottom-up derived type for this node.
(derived-type *wild-type* :type ctype)
;; True if this node needs to be optimized. This is set to true
;; whenever something changes about the value of a continuation
;; 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
+ ;; 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))
;;; is set when a continuation 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)
;;; FIXME: Tweak so that definitions of e.g. BLOCK-DELETE-P is
(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))
+ ;; 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)
(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.
+ ;; constraints that hold in this block and its successors by merit
+ ;; of being tested by its IF predecessors.
(test-constraint nil :type (or sset null)))
(def!method print-object ((cblock cblock) stream)
(print-unreadable-object (cblock stream :type t :identity t)
- (format stream ":START c~W" (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
;;; size of flow analysis problems, this allows back-end data
;;; structures to be reclaimed after the compilation of each
;;; component.
-(defstruct (component (:copier nil))
+(defstruct (component (:copier nil)
+ (:constructor
+ make-component (head tail &aux (last-block tail))))
;; unique ID for debugging
#!+sb-show (id (new-object-id) :read-only t)
;; the kind of component
;; 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
(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)
;; Unlike the SOURCE-NAME slot, this slot's value should never
;; affect ordinary code behavior, only debugging/diagnostic behavior.
;;
+ ;; 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.
+ ;;
;; 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
;; 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
;; 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)))
;; 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
;;; 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))
+ (:constructor make-ref
+ (leaf
+ &aux (leaf-type (leaf-type leaf))
+ (derived-type
+ (make-single-value-type leaf-type))))
(:copier nil))
;; The leaf referenced.
(leaf nil :type leaf))
alternative)
(defstruct (cset (:include node
- (derived-type *universal-type*))
+ (derived-type (make-single-value-type
+ *universal-type*)))
(:conc-name set-)
(:predicate set-p)
(:constructor make-set)
(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.
+(defstruct (cast (:include 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.)
+ ;;
+ ;; T
+ ;; A type check is needed.
+ (%type-check t :type (member t nil))
+ ;; the continuations which is checked
+ (value (missing-arg) :type continuation))
+(defprinter (cast :identity t)
+ %type-check
+ value
+ asserted-type
+ type-to-check)
\f
;;;; non-local exit support
;;;;