(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.
+;;; "Lead-in" Control TRANsfer [to some node]
(def!struct (ctran
(:make-load-form-fun ignore-it)
(:constructor make-ctran))
;; 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.
+ ;; The continuation that is the START of BLOCK.
;;
;; :INSIDE-BLOCK
;; A continuation that is the NEXT of some node in BLOCK.
(kind :unused :type (member :unused :inside-block :block-start))
- ;; 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 NODE which is to be evaluated next. Null only temporary.
(next nil :type (or node null))
;; the node where this CTRAN is used, if unique. This is always null
- ;; in :DELETED, :UNUSED and :BLOCK-START CTRANs, and is never null
- ;; in :INSIDE-BLOCK continuations.
+ ;; 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))
- ;; something or other that the back end annotates this continuation with
- (info nil))
+ ;; :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 continuation's value. If NIL, then this must
- ;; be recomputed: see CONTINUATION-DERIVED-TYPE.
+ ;; 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 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 (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 continuation's value has
- ;; changed. See REOPTIMIZE-CONTINUATION. This provides a way for IR1
+ ;; 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)
;; Cached type which is checked by DEST. If NIL, then this must be
- ;; recomputed: see CONTINUATION-EXTERNALLY-CHECKABLE-TYPE.
+ ;; recomputed: see LVAR-EXTERNALLY-CHECKABLE-TYPE.
(%externally-checkable-type nil :type (or null ctype))
- ;; something or other that the back end annotates this continuation with
+ ;; something or other that the back end annotates this lvar with
(info nil))
-#+nil
-(def!method print-object ((x continuation) stream)
+(def!method print-object ((x lvar) stream)
(print-unreadable-object (x stream :type t :identity t)
(format stream " #~D" (cont-num x))))
;; 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.
+ ;; 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 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.
+ ;; 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)
(:copier nil))
;; the bottom-up derived type for this node.
(derived-type *wild-type* :type ctype)
- ;; may be NIL if the value is unused.
+ ;; 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
;;; 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
;;; 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
;; 3. blocks with DELETE-P set (zero)
(pred nil :type list)
(succ nil :type list)
- ;; the ctran which heads this block (either a :BLOCK-START or
- ;; :DELETED-BLOCK-START), or NIL when we haven't made the start
- ;; ctran yet (and in the dummy component head and tail
- ;; blocks)
+ ;; 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
;;; 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))
;; 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.
+ ;; lvar for the call.
;;
;; :MV-LET
;; Similar to :LET (as per FUNCTIONAL-LETLIKE-P), but the call
;; 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
;; 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)))
(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)))
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)
;;; The BASIC-COMBINATION structure is used to represent both normal
;;; 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. XXX
+;;; function appears as the successor; the NODE-LVAR is null.
(defstruct (basic-combination (:include valued-node)
(:constructor nil)
(:copier nil))
"<deleted>"))
args)))
-(defun call-full-like-p (call)
- (declare (type combination call))
- (let ((kind (basic-combination-kind call)))
- (or (eq kind :full)
- (and (fun-info-p kind)
- (null (fun-info-templates kind))
- (not (fun-info-ir2-convert kind))))))
-
;;; 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.
;; 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 nil))
+ (%type-check t :type (member t :external nil))
;; the lvar which is checked
(value (missing-arg) :type lvar))
(defprinter (cast :identity t)
;;; 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.
+;;; continuation, it is delivered to our VALUE lvar. The original exit
+;;; lvar is the exit node's LVAR.
(defstruct (exit (:include valued-node)
(:copier nil))
;; the ENTRY node that this is an exit for. If null, this is a