(emit-move-template node block (type-check-template type) value result)
(values))
-;;; Allocate an indirect value cell. Maybe do some clever stack
-;;; allocation someday.
+;;; Allocate an indirect value cell.
(defevent make-value-cell-event "Allocate heap value cell for lexical var.")
(defun emit-make-value-cell (node block value res)
(event make-value-cell-event node)
- (vop make-value-cell node block value res))
+ (let ((leaf (tn-leaf res)))
+ (vop make-value-cell node block value
+ (and leaf (leaf-dynamic-extent leaf)
+ ;; FIXME: See bug 419
+ (policy node (> stack-allocate-value-cells 1)))
+ res)))
\f
;;;; leaf reference
(vop value-cell-ref node block tn res)
(emit-move node block tn res))))
(constant
- (if (legal-immediate-constant-p leaf)
- (emit-move node block (constant-tn leaf) res)
- (let* ((name (leaf-source-name leaf))
- (name-tn (emit-constant name)))
- (if (policy node (zerop safety))
- (vop fast-symbol-value node block name-tn res)
- (vop symbol-value node block name-tn res)))))
+ (emit-move node block (constant-tn leaf) res))
(functional
(ir2-convert-closure node block leaf res))
(global-var
(emit-move node block val tn)))))
(global-var
(ecase (global-var-kind leaf)
- ((:special :global)
+ ((:special)
(aver (symbolp (leaf-source-name leaf)))
(vop set node block (emit-constant (leaf-source-name leaf)) val)))))
(when locs
(ir2-convert-conditional node block (template-or-lose 'if-eq)
test-ref () node t)))
-;;; Return a list of primitive-types that we can pass to
-;;; LVAR-RESULT-TNS describing the result types we want for a
-;;; template call. We duplicate here the determination of output type
-;;; that was done in initially selecting the template, so we know that
-;;; the types we find are allowed by the template output type
-;;; restrictions.
-(defun find-template-result-types (call template rtypes)
- (declare (type combination call)
- (type template template) (list rtypes))
- (declare (ignore template))
- (let* ((dtype (node-derived-type call))
- (type dtype)
- (types (mapcar #'primitive-type
- (if (values-type-p type)
- (append (values-type-required type)
- (values-type-optional type))
- (list type)))))
- (let ((nvals (length rtypes))
- (ntypes (length types)))
- (cond ((< ntypes nvals)
- (append types
- (make-list (- nvals ntypes)
- :initial-element *backend-t-primitive-type*)))
- ((> ntypes nvals)
- (subseq types 0 nvals))
- (t
- types)))))
-
-;;; Return a list of TNs usable in a CALL to TEMPLATE delivering
-;;; values to LVAR. As an efficiency hack, we pick off the common case
-;;; where the LVAR is fixed values and has locations that satisfy the
-;;; result restrictions. This can fail when there is a type check or a
-;;; values count mismatch.
-(defun make-template-result-tns (call lvar template rtypes)
+;;; Return a list of primitive-types that we can pass to LVAR-RESULT-TNS
+;;; describing the result types we want for a template call. We are really
+;;; only interested in the number of results required: in normal case
+;;; TEMPLATE-RESULTS-OK has already checked them.
+(defun find-template-result-types (call rtypes)
+ (let* ((type (node-derived-type call))
+ (types
+ (mapcar #'primitive-type
+ (if (values-type-p type)
+ (append (args-type-required type)
+ (args-type-optional type))
+ (list type))))
+ (primitive-t *backend-t-primitive-type*))
+ (loop for rtype in rtypes
+ for type = (or (pop types) primitive-t)
+ collect type)))
+
+;;; Return a list of TNs usable in a CALL to TEMPLATE delivering values to
+;;; LVAR. As an efficiency hack, we pick off the common case where the LVAR is
+;;; fixed values and has locations that satisfy the result restrictions. This
+;;; can fail when there is a type check or a values count mismatch.
+(defun make-template-result-tns (call lvar rtypes)
(declare (type combination call) (type (or lvar null) lvar)
- (type template template) (list rtypes))
+ (list rtypes))
(let ((2lvar (when lvar (lvar-info lvar))))
(if (and 2lvar (eq (ir2-lvar-kind 2lvar) :fixed))
(let ((locs (ir2-lvar-locs 2lvar)))
(if (and (= (length rtypes) (length locs))
(do ((loc locs (cdr loc))
- (rtype rtypes (cdr rtype)))
+ (rtypes rtypes (cdr rtypes)))
((null loc) t)
(unless (operand-restriction-ok
- (car rtype)
+ (car rtypes)
(tn-primitive-type (car loc))
:t-ok nil)
(return nil))))
locs
(lvar-result-tns
lvar
- (find-template-result-types call template rtypes))))
+ (find-template-result-types call rtypes))))
(lvar-result-tns
lvar
- (find-template-result-types call template rtypes)))))
+ (find-template-result-types call rtypes)))))
;;; Get the operands into TNs, make TN-REFs for them, and then call
;;; the template emit function.
(if (eq rtypes :conditional)
(ir2-convert-conditional call block template args info-args
(lvar-dest lvar) nil)
- (let* ((results (make-template-result-tns call lvar template rtypes))
+ (let* ((results (make-template-result-tns call lvar rtypes))
(r-refs (reference-tn-list results t)))
(aver (= (length info-args)
(template-info-arg-count template)))
(info (lvar-value info))
(lvar (node-lvar call))
(rtypes (template-result-types template))
- (results (make-template-result-tns call lvar template rtypes))
+ (results (make-template-result-tns call lvar rtypes))
(r-refs (reference-tn-list results t)))
(multiple-value-bind (args info-args)
(reference-args call block (cddr (combination-args call)) template)
(move-lvar-result call block results lvar)))
(values))
+
+(defoptimizer (%%primitive derive-type) ((template info &rest args))
+ (let ((type (template-type (lvar-value template))))
+ (if (fun-type-p type)
+ (fun-type-returns type)
+ *wild-type*)))
\f
;;;; local call
(ir2-physenv-return-pc env))
#!+unwind-to-frame-and-call-vop
- (when (and (policy fun (>= insert-debug-catch 2))
- (lambda-return fun))
+ (when (and (lambda-allow-instrumenting fun)
+ (not (lambda-inline-expanded fun))
+ (lambda-return fun)
+ (policy fun (>= insert-debug-catch 2)))
(vop sb!vm::bind-sentinel node block))
(let ((lab (gen-label)))
(return-pc (ir2-physenv-return-pc env))
(returns (tail-set-info (lambda-tail-set fun))))
#!+unwind-to-frame-and-call-vop
- (when (policy fun (>= insert-debug-catch 2))
+ (when (and (lambda-allow-instrumenting fun)
+ (not (lambda-inline-expanded fun))
+ (policy fun (>= insert-debug-catch 2)))
(vop sb!vm::unbind-sentinel node block))
(cond
((and (eq (return-info-kind returns) :fixed)
(progn
(labels ((,unbind (vars)
(declare (optimize (speed 2) (debug 0)))
- (dolist (var vars)
- (%primitive bind nil var)
- (makunbound var)))
+ (let ((unbound-marker (%primitive make-other-immediate-type
+ 0 sb!vm:unbound-marker-widetag)))
+ (dolist (var vars)
+ ;; CLHS says "bound and then made to have no value" -- user
+ ;; should not be able to tell the difference between that and this.
+ (about-to-modify-symbol-value var "bind ~S")
+ (%primitive bind unbound-marker var))))
(,bind (vars vals)
(declare (optimize (speed 2) (debug 0)))
(cond ((null vars))
((null vals) (,unbind vars))
- (t (%primitive bind
- (car vals)
- (car vars))
- (,bind (cdr vars) (cdr vals))))))
+ (t
+ (let ((val (car vals))
+ (var (car vars)))
+ (about-to-modify-symbol-value var "bind ~S" val)
+ (%primitive bind val var))
+ (,bind (cdr vars) (cdr vals))))))
(,bind ,vars ,vals))
nil
,@body)