(in-package "SB!C")
;;; FIXME: Doesn't this belong somewhere else, like early-c.lisp?
-(declaim (special *constants* *free-variables* *component-being-compiled*
+(declaim (special *constants* *free-vars* *component-being-compiled*
*code-vector* *next-location* *result-fixups*
- *free-functions* *source-paths*
- *seen-blocks* *seen-functions* *list-conflicts-table*
+ *free-funs* *source-paths*
+ *seen-blocks* *seen-funs* *list-conflicts-table*
*continuation-number* *continuation-numbers*
*number-continuations* *tn-id* *tn-ids* *id-tns*
*label-ids* *label-id* *id-labels*
;;; :BLOCK-COMPILE and :ENTRY-POINTS arguments that COMPILE-FILE was
;;; called with.
;;;
-;;; *BLOCK-COMPILE-ARGUMENT* holds the original value of the
-;;; :BLOCK-COMPILE argument, which overrides any internal
-;;; declarations.
+;;; *BLOCK-COMPILE-ARG* holds the original value of the :BLOCK-COMPILE
+;;; argument, which overrides any internal declarations.
(defvar *block-compile*)
-(defvar *block-compile-argument*)
-(declaim (type (member nil t :specified)
- *block-compile* *block-compile-argument*))
+(defvar *block-compile-arg*)
+(declaim (type (member nil t :specified) *block-compile* *block-compile-arg*))
(defvar *entry-points*)
(declaim (list *entry-points*))
(warning #'compiler-warning-handler))
(let ((undefs (sort *undefined-warnings* #'string<
- :key #'(lambda (x)
- (let ((x (undefined-warning-name x)))
- (if (symbolp x)
- (symbol-name x)
- (prin1-to-string x)))))))
+ :key (lambda (x)
+ (let ((x (undefined-warning-name x)))
+ (if (symbolp x)
+ (symbol-name x)
+ (prin1-to-string x)))))))
(dolist (undef undefs)
(let ((name (undefined-warning-name undef))
(kind (undefined-warning-kind undef))
(warnings (undefined-warning-warnings undef))
(undefined-warning-count (undefined-warning-count undef)))
(dolist (*compiler-error-context* warnings)
- (compiler-style-warning "undefined ~(~A~): ~S" kind name))
+ (compiler-style-warn "undefined ~(~A~): ~S" kind name))
(let ((warn-count (length warnings)))
(when (and warnings (> undefined-warning-count warn-count))
(let ((more (- undefined-warning-count warn-count)))
- (compiler-style-warning
- "~D more use~:P of undefined ~(~A~) ~S"
+ (compiler-style-warn
+ "~W more use~:P of undefined ~(~A~) ~S"
more kind name))))))
(dolist (kind '(:variable :function :type))
(remove kind undefs :test-not #'eq
:key #'undefined-warning-kind))))
(when summary
- (compiler-style-warning
+ (compiler-style-warn
"~:[This ~(~A~) is~;These ~(~A~)s are~] undefined:~
~% ~{~<~% ~1:;~S~>~^ ~}"
(cdr summary) kind summary)))))))
(format *error-output* "~&")
(pprint-logical-block (*error-output* nil :per-line-prefix "; ")
(compiler-mumble "compilation unit ~:[finished~;aborted~]~
- ~[~:;~:*~& caught ~D fatal ERROR condition~:P~]~
- ~[~:;~:*~& caught ~D ERROR condition~:P~]~
- ~[~:;~:*~& caught ~D WARNING condition~:P~]~
- ~[~:;~:*~& caught ~D STYLE-WARNING condition~:P~]~
- ~[~:;~:*~& printed ~D note~:P~]"
+ ~[~:;~:*~& caught ~W fatal ERROR condition~:P~]~
+ ~[~:;~:*~& caught ~W ERROR condition~:P~]~
+ ~[~:;~:*~& caught ~W WARNING condition~:P~]~
+ ~[~:;~:*~& caught ~W STYLE-WARNING condition~:P~]~
+ ~[~:;~:*~& printed ~W note~:P~]"
abort-p
*aborted-compilation-unit-count*
*compiler-error-count*
;;; Do all the IR1 phases for a non-top-level component.
(defun ir1-phases (component)
(declare (type component component))
+ (aver-live-component component)
(let ((*constraint-number* 0)
(loop-count 1)
(*delayed-ir1-transforms* nil))
(declare (special *constraint-number* *delayed-ir1-transforms*))
(loop
(ir1-optimize-until-done component)
- (when (or (component-new-funs component)
- (component-reanalyze-funs component))
+ (when (or (component-new-functionals component)
+ (component-reanalyze-functionals component))
(maybe-mumble "locall ")
(locall-analyze-component component))
(dfo-as-needed component)
(constraint-propagate component))
(when (retry-delayed-ir1-transforms :constraint)
(maybe-mumble "Rtran "))
- ;; Delay the generation of type checks until the type
- ;; constraints have had time to propagate, else the compiler can
- ;; confuse itself.
- (unless (and (or (component-reoptimize component)
- (component-reanalyze component)
- (component-new-funs component)
- (component-reanalyze-funs component))
- (< loop-count (- *reoptimize-after-type-check-max* 4)))
- (maybe-mumble "type ")
- (generate-type-checks component)
- (unless (or (component-reoptimize component)
- (component-reanalyze component)
- (component-new-funs component)
- (component-reanalyze-funs component))
- (return)))
+ (flet ((want-reoptimization-p ()
+ (or (component-reoptimize component)
+ (component-reanalyze component)
+ (component-new-functionals component)
+ (component-reanalyze-functionals component))))
+ (unless (and (want-reoptimization-p)
+ ;; We delay the generation of type checks until
+ ;; the type constraints have had time to
+ ;; propagate, else the compiler can confuse itself.
+ (< loop-count (- *reoptimize-after-type-check-max* 4)))
+ (maybe-mumble "type ")
+ (generate-type-checks component)
+ (unless (want-reoptimization-p)
+ (return))))
(when (>= loop-count *reoptimize-after-type-check-max*)
(maybe-mumble "[reoptimize limit]")
(event reoptimize-maxed-out)
(null))))))
;; We're done, so don't bother keeping anything around.
- (setf (component-info component) nil)
+ (setf (component-info component) :dead)
(values))
(:toplevel (return))
(:external
(unless (every (lambda (ref)
- (eq (block-component (node-block ref))
- component))
+ (eq (node-component ref) component))
(leaf-refs fun))
(return))))))
(defun compile-component (component)
+
+ ;; miscellaneous sanity checks
+ ;;
+ ;; FIXME: These are basically pretty wimpy compared to the checks done
+ ;; by the old CHECK-IR1-CONSISTENCY code. It would be really nice to
+ ;; make those internal consistency checks work again and use them.
+ (aver-live-component component)
+ (do-blocks (block component)
+ (aver (eql (block-component block) component)))
+ (dolist (lambda (component-lambdas component))
+ ;; sanity check to prevent weirdness from propagating insidiously as
+ ;; far from its root cause as it did in bug 138: Make sure that
+ ;; thing-to-COMPONENT links are consistent.
+ (aver (eql (lambda-component lambda) component))
+ (aver (eql (node-component (lambda-bind lambda)) component)))
+
(let* ((*component-being-compiled* component))
(when sb!xc:*compile-print*
(compiler-mumble "~&; compiling ~A: " (component-name component)))
;;;; global data structures entirely when possible and consing up the
;;;; others from scratch instead of clearing and reusing them?
-;;; Clear the INFO in constants in the *FREE-VARIABLES*, etc. In
+;;; Clear the INFO in constants in the *FREE-VARS*, etc. In
;;; addition to allowing stuff to be reclaimed, this is required for
;;; correct assignment of constant offsets, since we need to assign a
;;; new offset for each component. We don't clear the FUNCTIONAL-INFO
;;; slots, since they are used to keep track of functions across
;;; component boundaries.
(defun clear-constant-info ()
- (maphash #'(lambda (k v)
- (declare (ignore k))
- (setf (leaf-info v) nil))
+ (maphash (lambda (k v)
+ (declare (ignore k))
+ (setf (leaf-info v) nil))
*constants*)
- (maphash #'(lambda (k v)
- (declare (ignore k))
- (when (constant-p v)
- (setf (leaf-info v) nil)))
- *free-variables*)
+ (maphash (lambda (k v)
+ (declare (ignore k))
+ (when (constant-p v)
+ (setf (leaf-info v) nil)))
+ *free-vars*)
(values))
;;; Blow away the REFS for all global variables, and let COMPONENT
(defun clear-ir1-info (component)
(declare (type component component))
(labels ((blast (x)
- (maphash #'(lambda (k v)
- (declare (ignore k))
- (when (leaf-p v)
- (setf (leaf-refs v)
- (delete-if #'here-p (leaf-refs v)))
- (when (basic-var-p v)
- (setf (basic-var-sets v)
- (delete-if #'here-p (basic-var-sets v))))))
+ (maphash (lambda (k v)
+ (declare (ignore k))
+ (when (leaf-p v)
+ (setf (leaf-refs v)
+ (delete-if #'here-p (leaf-refs v)))
+ (when (basic-var-p v)
+ (setf (basic-var-sets v)
+ (delete-if #'here-p (basic-var-sets v))))))
x))
(here-p (x)
- (eq (block-component (node-block x)) component)))
- (blast *free-variables*)
- (blast *free-functions*)
+ (eq (node-component x) component)))
+ (blast *free-vars*)
+ (blast *free-funs*)
(blast *constants*))
(values))
(defun clear-stuff (&optional (debug-too t))
;; Clear global tables.
- (when (boundp '*free-functions*)
- (clrhash *free-functions*)
- (clrhash *free-variables*)
+ (when (boundp '*free-funs*)
+ (clrhash *free-funs*)
+ (clrhash *free-vars*)
(clrhash *constants*))
;; Clear debug counters and tables.
(clrhash *seen-blocks*)
- (clrhash *seen-functions*)
+ (clrhash *seen-funs*)
(clrhash *list-conflicts-table*)
(when debug-too
\f
;;;; trace output
-;;; Print out some useful info about Component to Stream.
+;;; Print out some useful info about COMPONENT to STREAM.
(defun describe-component (component *standard-output*)
(declare (type component component))
(format t "~|~%;;;; component: ~S~2%" (component-name component))
;;;; the error context and for recovering from errors.
;;;;
;;;; The interface we provide to this stuff is the stream-oid
-;;;; Source-Info structure. The bookkeeping is done as a side-effect
+;;;; SOURCE-INFO structure. The bookkeeping is done as a side effect
;;;; of getting the next source form.
;;; A FILE-INFO structure holds all the source information for a
;;; utilities for extracting COMPONENTs of FUNCTIONALs
-(defun clambda-component (clambda)
- (block-component (node-block (lambda-bind clambda))))
(defun functional-components (f)
(declare (type functional f))
(etypecase f
- (clambda (list (clambda-component f)))
+ (clambda (list (lambda-component f)))
(optional-dispatch (let ((result nil))
(labels ((frob (clambda)
- (pushnew (clambda-component clambda)
+ (pushnew (lambda-component clambda)
result))
(maybe-frob (maybe-clambda)
(when maybe-clambda
(setf (component-name component)
(debug-namify "~S initial component" name))
(setf (component-kind component) :initial)
- (let* ((locall-fun (ir1-convert-lambda definition
- :debug-name (debug-namify
- "top level locall ~S"
- name)))
+ (let* ((locall-fun (ir1-convert-lambda
+ definition
+ :debug-name (debug-namify "top level local call ~S"
+ name)))
(fun (ir1-convert-lambda (make-xep-lambda-expression locall-fun)
:source-name (or name '.anonymous.)
:debug-name (unless name
"top level form"))))
- (/show "in MAKE-FUNCTIONAL-FROM-TOP-LEVEL-LAMBDA" locall-fun fun component)
- (/show (component-lambdas component))
- (/show (lambda-calls fun))
- (setf (functional-entry-function fun) locall-fun
+ (setf (functional-entry-fun fun) locall-fun
(functional-kind fun) :external
(functional-has-external-references-p fun) t)
fun)))
;; nice default for things where we don't have a
;; real source path (as in e.g. inside CL:COMPILE).
'(original-source-start 0 0)))
- (/show "entering %COMPILE" lambda-expression name)
(unless (or (null name) (legal-fun-name-p name))
(error "not a legal function name: ~S" name))
(let* ((*lexenv* (make-lexenv :policy *policy*))
(fun (make-functional-from-toplevel-lambda lambda-expression
:name name
:path path)))
- (/show "back in %COMPILE from M-F-FROM-TL-LAMBDA" fun)
- (/show (block-component (node-block (lambda-bind fun))))
- (/show (component-lambdas (block-component (node-block (lambda-bind fun)))))
;; FIXME: The compile-it code from here on is sort of a
;; twisted version of the code in COMPILE-TOPLEVEL. It'd be
;; whole FUNCTIONAL-KIND=:TOPLEVEL case could go away..)
(locall-analyze-clambdas-until-done (list fun))
- (/show (lambda-calls fun))
- #+nil (break "back from LOCALL-ANALYZE-CLAMBDAS-UNTIL-DONE" fun)
(multiple-value-bind (components-from-dfo top-components hairy-top)
(find-initial-dfo (list fun))
- (/show components-from-dfo top-components hairy-top)
- (/show (mapcar #'component-lambdas components-from-dfo))
- (/show (mapcar #'component-lambdas top-components))
- (/show (mapcar #'component-lambdas hairy-top))
(let ((*all-components* (append components-from-dfo top-components)))
;; FIXME: This is more monkey see monkey do based on CMU CL
(mapc #'preallocate-physenvs-for-toplevelish-lambdas hairy-top)
(mapc #'preallocate-physenvs-for-toplevelish-lambdas top-components)
(dolist (component-from-dfo components-from-dfo)
- (/show component-from-dfo (component-lambdas component-from-dfo))
(compile-component component-from-dfo)
(replace-toplevel-xeps component-from-dfo)))
(aver found-p)
result))
(mapc #'clear-ir1-info components-from-dfo)
- (clear-stuff)
- (/show "returning from %COMPILE")))))
+ (clear-stuff)))))
(defun process-toplevel-cold-fset (name lambda-expression path)
(unless (producing-fasl-file)
;;; Compile FORM and arrange for it to be called at load-time. Return
;;; the dumper handle and our best guess at the type of the object.
-(defun compile-load-time-value
- (form &optional
- (name (let ((*print-level* 2) (*print-length* 3))
- (format nil "load time value of ~S"
- (if (and (listp form)
- (eq (car form) 'make-value-cell))
- (second form)
- form)))))
- (let ((lambda (compile-load-time-stuff form name t)))
+(defun compile-load-time-value (form)
+ (let ((lambda (compile-load-time-stuff form t)))
(values
(fasl-dump-load-time-value-lambda lambda *compile-object*)
(let ((type (leaf-type lambda)))
;;; Compile the FORMS and arrange for them to be called (for effect,
;;; not value) at load time.
-(defun compile-make-load-form-init-forms (forms name)
- (let ((lambda (compile-load-time-stuff `(progn ,@forms) name nil)))
+(defun compile-make-load-form-init-forms (forms)
+ (let ((lambda (compile-load-time-stuff `(progn ,@forms) nil)))
(fasl-dump-toplevel-lambda-call lambda *compile-object*)))
-;;; Does the actual work of COMPILE-LOAD-TIME-VALUE or
-;;; COMPILE-MAKE-LOAD-FORM- INIT-FORMS.
-(defun compile-load-time-stuff (form name for-value)
+;;; Do the actual work of COMPILE-LOAD-TIME-VALUE or
+;;; COMPILE-MAKE-LOAD-FORM-INIT-FORMS.
+(defun compile-load-time-stuff (form for-value)
(with-ir1-namespace
(let* ((*lexenv* (make-null-lexenv))
(lambda (ir1-toplevel form *current-path* for-value)))
(defun compile-load-time-value-lambda (lambdas)
(aver (null (cdr lambdas)))
(let* ((lambda (car lambdas))
- (component (block-component (node-block (lambda-bind lambda)))))
+ (component (lambda-component lambda)))
(when (eql (component-kind component) :toplevel)
(setf (component-name component) (leaf-debug-name lambda))
(compile-component component)
(flet ((loser (start)
(or (position-if (lambda (x)
(not (eq (component-kind
- (block-component
- (node-block
- (lambda-bind x))))
+ (node-component (lambda-bind x)))
:toplevel)))
lambdas
- :start start)
+ ;; this used to read ":start start", but
+ ;; start can be greater than len, which
+ ;; is an error according to ANSI - CSR,
+ ;; 2002-04-25
+ :start (min start len))
len)))
(do* ((start 0 (1+ loser))
(loser (loser start) (loser start)))
;;; Return (VALUES NIL WARNINGS-P FAILURE-P).
(defun sub-compile-file (info)
(declare (type source-info info))
- (let* ((*block-compile* *block-compile-argument*)
+ (let* ((*block-compile* *block-compile-arg*)
(*package* (sane-package))
(*policy* *policy*)
(*lexenv* (make-null-lexenv))
;; extensions
(trace-file nil)
- ((:block-compile *block-compile-argument*) nil))
+ ((:block-compile *block-compile-arg*) nil))
#!+sb-doc
"Compile INPUT-FILE, producing a corresponding fasl file and returning
;;; If the constant doesn't show up in *CONSTANTS-BEING-CREATED*, then
;;; we have to create it. We call MAKE-LOAD-FORM and check to see
;;; whether the creation form is the magic value
-;;; :JUST-DUMP-IT-NORMALLY. If it is, then we don't do anything. The
+;;; :SB-JUST-DUMP-IT-NORMALLY. If it is, then we don't do anything. The
;;; dumper will eventually get its hands on the object and use the
;;; normal structure dumping noise on it.
;;;
;;; deal with it.
(defvar *constants-being-created* nil)
(defvar *constants-created-since-last-init* nil)
-;;; FIXME: Shouldn't these^ variables be bound in LET forms?
+;;; FIXME: Shouldn't these^ variables be unbound outside LET forms?
(defun emit-make-load-form (constant)
(aver (fasl-output-p *compile-object*))
(unless (or (fasl-constant-already-dumped-p constant *compile-object*)
constant
condition)))
(case creation-form
- (:just-dump-it-normally
+ (:sb-just-dump-it-normally
(fasl-validate-structure constant *compile-object*)
t)
(:ignore-it
(fasl-note-handle-for-constant
constant
(compile-load-time-value
- creation-form
- (format nil "creation form for ~A" name))
+ creation-form)
*compile-object*)
nil)
(compiler-error "circular references in creation form for ~S"
(loop for (name form) on (cdr info) by #'cddr
collect name into names
collect form into forms
- finally
- (compile-make-load-form-init-forms
- forms
- (format nil "init form~:[~;s~] for ~{~A~^, ~}"
- (cdr forms) names)))
+ finally (compile-make-load-form-init-forms forms))
nil)))
(when circular-ref
(setf (cdr circular-ref)