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;;; -*- Package: C; Log: C.Log -*-
;;;
;;; **********************************************************************
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;;; This code was written as part of the CMU Common Lisp project at
;;; Carnegie Mellon University, and has been placed in the public domain.
;;; If you want to use this code or any part of CMU Common Lisp, please contact
;;; Scott Fahlman or slisp-group@cs.cmu.edu.
;;;
(ext:file-comment
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  "$Header: /Volumes/share2/src/cmucl/cvs2git/cvsroot/src/compiler/main.lisp,v 1.102 1994/02/11 15:09:39 ram Exp $")
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;;;
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;;; **********************************************************************
;;;
;;;    This file contains the top-level interfaces to the compiler.
;;; 
;;; Written by Rob MacLachlan
;;;
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(in-package "C")
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(in-package "EXTENSIONS")
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(export '(*compile-progress* compile-from-stream *block-compile-default*
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			     start-block end-block
			     *byte-compile-default*
			     *byte-compile-top-level*))
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(in-package "LISP")
(export '(*compile-verbose* *compile-print* *compile-file-pathname*
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			    *compile-file-truename*
			    compile-file-pathname))
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(in-package "C")
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(proclaim '(special *constants* *free-variables* *compile-component*
		    *code-vector* *next-location* *result-fixups*
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		    *free-functions* *source-paths*
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		    *seen-blocks* *seen-functions* *list-conflicts-table*
		    *continuation-number* *continuation-numbers*
		    *number-continuations* *tn-id* *tn-ids* *id-tns*
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		    *label-ids* *label-id* *id-labels*
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		    *undefined-warnings* *compiler-error-count*
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		    *compiler-warning-count* *compiler-note-count*
		    *compiler-error-output* *compiler-error-bailout*
		    *compiler-trace-output*
		    *last-source-context* *last-original-source*
		    *last-source-form* *last-format-string* *last-format-args*
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		    *last-message-count* *lexical-environment*
		    *coalesce-constants*))
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;;; Exported:
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(defvar *block-compile-default* :specified
  "The default value for the :Block-Compile argument to COMPILE-FILE.")
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(declaim (type (member t nil :specified) *block-compile-default*))

;;; Exported:
(defvar *byte-compile-default* :maybe
  "The default value for the :Byte-Compile argument to COMPILE-FILE.")

;;; Exported:
(defvar *byte-compile-top-level* t
  "Similar to *BYTE-COMPILE-DEFAULT*, but controls the compilation of top-level
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   forms (evaluated at load-time) when the :BYTE-COMPILE argument is :MAYBE
   (the default.)  When true, we decide to byte-compile.")
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;;; Value of the :byte-compile argument to the compiler.
(defvar *byte-compile* :maybe)

;;; Bound by COMPILE-COMPONENT to T when byte-compiling, and NIL when
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;;; native compiling.  During IR1 conversion this can also be :MAYBE, in which
;;; case we must look at the policy, see (byte-compiling).
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;;;
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(defvar *byte-compiling* :maybe)
(declaim (type (member t nil :maybe) *byte-compile* *byte-compiling*
	       *byte-compile-default*))
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(defvar compiler-version "1.0")
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(pushnew :python *features*)
(setf (getf ext:*herald-items* :python)
      `("    Python " ,compiler-version ", target "
	,#'(lambda (stream)
	     (write-string (backend-version *backend*) stream))))
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(defvar *check-consistency* nil)
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(defvar *all-components*)

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;;; The current block compilation state.  These are initialized to the 
;;; :Block-Compile and :Entry-Points arguments that COMPILE-FILE was called
;;; with.  Subsequent START-BLOCK or END-BLOCK declarations alter the values.
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;;;
(defvar *block-compile*)
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(declaim (type (member nil t :specified) *block-compile*))
(defvar *entry-points*)
(declaim (list *entry-points*))
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;;; When block compiling, used by PROCESS-FORM to accumulate top-level lambdas
;;; resulting from compiling subforms.  (In reverse order.)
;;;
(defvar *top-level-lambdas*)
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(declaim (list *top-level-lambdas*))
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(defvar *compile-verbose* t
  "The default for the :VERBOSE argument to COMPILE-FILE.")
(defvar *compile-print* t
  "The default for the :PRINT argument to COMPILE-FILE.")
(defvar *compile-progress* nil
  "The default for the :PROGRESS argument to COMPILE-FILE.")

(defvar *compile-file-pathname* nil
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  "The defaulted pathname of the file currently being compiled, or NIL if not
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  compiling.")
(defvar *compile-file-truename* nil
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  "The TRUENAME of the file currently being compiled, or NIL if not
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  compiling.")

(declaim (type (or pathname null) *compile-file-pathname*
	       *compile-file-truename*))
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;;; The values of *Package* and policy when compilation started.
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;;;
(defvar *initial-package*)
(defvar *initial-cookie*)
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(defvar *initial-interface-cookie*)
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;;; The source-info structure for the current compilation.  This is null
;;; globally to indicate that we aren't currently in any identifiable
;;; compilation.
;;;
(defvar *source-info* nil)


;;; Maybe-Mumble  --  Internal
;;;
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;;;    Mumble conditional on *compile-progress*.
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;;;
(defun maybe-mumble (&rest foo)
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  (when *compile-progress*
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    (apply #'compiler-mumble foo)))

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(deftype object () '(or fasl-file core-object null))

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(defvar *compile-object* nil)
(declaim (type object *compile-object*))


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;;;; Component compilation:

(defparameter max-optimize-iterations 3
  "The upper limit on the number of times that we will consecutively do IR1
  optimization that doesn't introduce any new code.  A finite limit is
  necessary, since type inference may take arbitrarily long to converge.")

(defevent ir1-optimize-until-done "IR1-OPTIMIZE-UNTIL-DONE called.")
(defevent ir1-optimize-maxed-out "Hit MAX-OPTIMIZE-ITERATIONS limit.")

;;; IR1-Optimize-Until-Done  --  Internal
;;;
;;;    Repeatedly optimize Component until no further optimizations can be
;;; found or we hit our iteration limit.  When we hit the limit, we clear the
;;; component and block REOPTIMIZE flags to discourage following the next
;;; optimization attempt from pounding on the same code.
;;;
(defun ir1-optimize-until-done (component)
  (declare (type component component))
  (maybe-mumble "Opt")
  (event ir1-optimize-until-done)
  (let ((count 0)
	(cleared-reanalyze nil))
    (loop
      (when (component-reanalyze component)
	(setq count 0)
	(setq cleared-reanalyze t)
	(setf (component-reanalyze component) nil))
      (setf (component-reoptimize component) nil)
      (ir1-optimize component)
      (unless (component-reoptimize component)
	(maybe-mumble " ")
	(return))
      (incf count)
      (when (= count max-optimize-iterations)
	(event ir1-optimize-maxed-out)
	(maybe-mumble "* ")
	(setf (component-reoptimize component) nil)
	(do-blocks (block component)
	  (setf (block-reoptimize block) nil))
	(return))
      (maybe-mumble "."))
    (when cleared-reanalyze
      (setf (component-reanalyze component) t)))
  (undefined-value))

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(defparameter *constraint-propagate* t)
(defparameter *reoptimize-after-type-check-max* 5)

(defevent reoptimize-maxed-out
  "*REOPTIMIZE-AFTER-TYPE-CHECK-MAX* exceeded.")
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;;; DFO-AS-NEEDED  --  Internal
;;;
;;;    Iterate doing FIND-DFO until no new dead code is discovered.
;;;
(defun dfo-as-needed (component)
  (declare (type component component))
  (when (component-reanalyze component)
    (maybe-mumble "DFO")
    (loop
      (find-dfo component)
      (unless (component-reanalyze component)
	(maybe-mumble " ")
	(return))
      (maybe-mumble ".")))
  (undefined-value))


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;;; IR1-Phases  --  Internal
;;;
;;;    Do all the IR1 phases for a non-top-level component.
;;;
(defun ir1-phases (component)
  (declare (type component component))
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  (let ((*constraint-number* 0)
	(loop-count 1))
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    (declare (special *constraint-number*))
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    (loop
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      (ir1-optimize-until-done component)
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      (when (or (component-new-functions component)
		(component-reanalyze-functions component))
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	(maybe-mumble "Locall ")
	(local-call-analyze component))
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      (dfo-as-needed component)
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      (when *constraint-propagate*
	(maybe-mumble "Constraint ")
	(constraint-propagate component))
      (maybe-mumble "Type ")
      (generate-type-checks component)
      (unless (or (component-reoptimize component)
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		  (component-reanalyze component)
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		  (component-new-functions component)
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		  (component-reanalyze-functions component))
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	(return))
      (when (>= loop-count *reoptimize-after-type-check-max*)
	(maybe-mumble "[Reoptimize Limit]")
	(event reoptimize-maxed-out)
	(return))
      (incf loop-count)))
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  (ir1-finalize component)
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  (undefined-value))
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;;; Native-Compile-Component  --  Internal
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;;;
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(defun native-compile-component (component)
  (let ((*code-segment* nil)
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	(*elsewhere* nil))
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    (maybe-mumble "GTN ")
    (gtn-analyze component)
    (maybe-mumble "LTN ")
    (ltn-analyze component)
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    (dfo-as-needed component)
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    (maybe-mumble "Control ")
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    (control-analyze component #'make-ir2-block)
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    (when (ir2-component-values-receivers (component-info component))
      (maybe-mumble "Stack ")
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      (stack-analyze component)
      ;;
      ;; Assign BLOCK-NUMBER for any cleanup blocks introduced by stack
      ;; analysis.  There shouldn't be any unreachable code after control, so
      ;; this won't delete anything.
      (dfo-as-needed component))
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    (unwind-protect
	(progn
	  (maybe-mumble "IR2Tran ")
	  (init-assembler)
	  (entry-analyze component)
	  (ir2-convert component)
	  
	  (when (policy nil (>= speed cspeed))
	    (maybe-mumble "Copy ")
	    (copy-propagate component))
	  
	  (select-representations component)
	  
	  (when *check-consistency*
	    (maybe-mumble "Check2 ")
	    (check-ir2-consistency component))
	  
	  (delete-unreferenced-tns component)
	  
	  (maybe-mumble "Life ")
	  (lifetime-analyze component)
	  
	  (when *compile-progress*
	    (compiler-mumble "") ; Sync before doing random output.
	    (pre-pack-tn-stats component *compiler-error-output*))
	  
	  (when *check-consistency*
	    (maybe-mumble "CheckL ")
	    (check-life-consistency component))
	  
	  (maybe-mumble "Pack ")
	  (pack component)
	  
	  (when *check-consistency*
	    (maybe-mumble "CheckP ")
	    (check-pack-consistency component))
	  
	  (when *compiler-trace-output*
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	    (describe-component component *compiler-trace-output*)
	    (describe-ir2-component component *compiler-trace-output*))
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	  (maybe-mumble "Code ")
	  (multiple-value-bind
	      (length trace-table fixups)
	      (generate-code component)
	    
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	    (when (and *compiler-trace-output*
		       (backend-disassem-params *backend*))
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	      (format *compiler-trace-output*
		      "~|~%Disassembly of code for ~S~2%" component)
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	      (disassem:disassemble-assem-segment *code-segment*
						  *compiler-trace-output*
						  *backend*))
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	    (etypecase *compile-object*
	      (fasl-file
	       (maybe-mumble "FASL")
	       (fasl-dump-component component *code-segment*
				    length trace-table fixups
				    *compile-object*))
	      (core-object
	       (maybe-mumble "Core")
	       (make-core-component component *code-segment*
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				    length trace-table fixups
				    *compile-object*))
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	      (null))))
	    
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      (when *code-segment*
	(new-assem:release-segment *code-segment*))
      (when *elsewhere*
	(new-assem:release-segment *elsewhere*))))
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  ;; We are done, so don't bother keeping anything around.
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  (nuke-ir2-component component)
  (setf (component-info component) nil)
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  (undefined-value))


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;;; BYTE-COMPILING  --  Interface
;;;
;;;    Return our best guess for whether we will byte compile code currently
;;; being IR1 converted.  Only a guess because the decision is made on a
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;;; per-component basis.  If :CONSERVATIVE is true, return T if there is any
;;; doubt.
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;;;
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(defun byte-compiling (&key conservative)
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  (if (eq *byte-compiling* :maybe)
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      (or conservative
	  (eq *byte-compile* t)
	  (policy nil (zerop speed) (<= debug 1)))
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      (and *byte-compile* *byte-compiling*)))
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;;; DELETE-IF-NO-ENTRIES  --  Internal
;;;
;;;    Delete components with no external entry points before we try to
;;; generate code.  Unreachable closures can cause IR2 conversion to puke on
;;; itself, since it is the reference to the closure which normally causes the
;;; components to be combined.  This doesn't really cover all cases...
;;;
(defun delete-if-no-entries (component)
  (dolist (fun (component-lambdas component)
	       (delete-component component))
    (case (functional-kind fun)
      (:top-level (return))
      (:external
       (unless (every #'(lambda (ref)
			  (eq (block-component (node-block ref))
			      component))
		      (leaf-refs fun))
	 (return))))))

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;;; COMPILE-COMPONENT -- internal.
;;;
(defun compile-component (component)
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  (let* ((*compile-component* component)
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	 (*byte-compiling*
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	  (ecase *byte-compile*
	    ((t) t)
	    ((nil) nil)
	    (:maybe
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	     (dolist (fun (component-lambdas component) t)
	       (unless (policy (lambda-bind fun)
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			       (zerop speed) (<= debug 1))
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		 (return nil)))))))

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    (when *compile-print*
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      (compiler-mumble "~&~:[~;Byte ~]Compiling ~A: "
		       *byte-compiling*
		       (component-name component)))
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    (ir1-phases component)

    #|
    (maybe-mumble "Dom ")
    (find-dominators component)
    (maybe-mumble "Loop ")
    (loop-analyze component)
    |#

    (maybe-mumble "Env ")
    (environment-analyze component)
    (dfo-as-needed component)

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    (delete-if-no-entries component)

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    (unless (eq (block-next (component-head component))
		(component-tail component))
      (if *byte-compiling*
	  (byte-compile-component component)
	  (native-compile-component component))))
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  (clear-constant-info)

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  (when *compile-print*
    (compiler-mumble "~&"))

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  (undefined-value))


;;;; Clearing global data structures:

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;;; CLEAR-CONSTANT-INFO  --  Internal
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;;;
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;;;    Clear the INFO in constants in the *FREE-VARIABLES*, 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.
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;;;
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(defun clear-constant-info ()
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  (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*)

  (undefined-value))


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;;; CLEAR-IR1-INFO  --  Internal
;;;
;;;    Blow away the REFS for all global variables, and recycle the IR1 for
;;; Component.
;;;
(defun clear-ir1-info (component)
  (declare (type component component))
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  (labels ((blast (x)
	     (maphash #'(lambda (k v)
			  (declare (ignore k))
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			  (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))))))
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		      x))
	   (here-p (x)
	     (eq (block-component (node-block x)) component)))
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    (blast *free-variables*)
    (blast *free-functions*)
    (blast *constants*))
  (macerate-ir1-component component)
  (undefined-value))


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;;; CLEAR-STUFF  --  Interface
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;;;
;;;    Clear all the global variables used by the compiler.
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;;;
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(defun clear-stuff (&optional (debug-too t))
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  ;;
  ;; Clear global tables.
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  (when (boundp '*free-functions*)
    (clrhash *free-functions*)
    (clrhash *free-variables*)
    (clrhash *constants*))
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  ;;
  ;; Clear debug counters and tables.
  (clrhash *seen-blocks*)
  (clrhash *seen-functions*)
  (clrhash *list-conflicts-table*)
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  (when debug-too
    (clrhash *continuation-numbers*)
    (clrhash *number-continuations*)
    (setq *continuation-number* 0)
    (clrhash *tn-ids*)
    (clrhash *id-tns*)
    (setq *tn-id* 0)
    (clrhash *label-ids*)
    (clrhash *id-labels*)
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    (setq *label-id* 0)
    ;;
    ;; Clear some Pack data structures (for GC purposes only.)
    (assert (not *in-pack*))
    (dolist (sb (backend-sb-list *backend*))
      (when (finite-sb-p sb)
	(fill (finite-sb-live-tns sb) nil))))
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  ;;
  ;; Reset Gensym.
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  (setq lisp:*gensym-counter* 0)

  (values))
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523

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;;; PRINT-SUMMARY  --  Interface
;;;
;;;    This function is called by WITH-COMPILATION-UNIT at the end of a
;;; compilation unit.  It prints out any residual unknown function warnings and
;;; the total error counts.  Abort-P should be true when the compilation unit
;;; was aborted by throwing out.  Abort-Count is the number of dynamically
;;; enclosed nested compilation units that were aborted.
;;;
(defun print-summary (abort-p abort-count)
  (unless abort-p
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    (handler-bind ((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)))))))
	(unless *converting-for-interpreter*
	  (dolist (undef undefs)
	    (let ((name (undefined-warning-name undef))
		  (kind (undefined-warning-kind undef))
		  (warnings (undefined-warning-warnings undef))
		  (count (undefined-warning-count undef)))
	      (dolist (*compiler-error-context* warnings)
		(compiler-warning "Undefined ~(~A~): ~S" kind name))
	      
	      (let ((warn-count (length warnings)))
		(when (and warnings (> count warn-count))
		  (let ((more (- count warn-count)))
		    (compiler-warning "~D more use~:P of undefined ~(~A~) ~S."
				      more kind name)))))))
	
	(dolist (kind '(:variable :function :type))
	  (let ((summary (mapcar #'undefined-warning-name
				 (remove kind undefs :test-not #'eq
					 :key #'undefined-warning-kind))))
	    (when summary
	      (compiler-warning
	       "~:[This ~(~A~) is~;These ~(~A~)s are~] undefined:~
		~%  ~{~<~%  ~1:;~S~>~^ ~}"
	       (cdr summary) kind summary)))))))
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  (unless (or *converting-for-interpreter*
	      (and (not abort-p) (zerop abort-count)
		   (zerop *compiler-error-count*)
		   (zerop *compiler-warning-count*)
		   (zerop *compiler-note-count*)))
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    (compiler-mumble
     "~2&Compilation unit ~:[finished~;aborted~].~
      ~[~:;~:*~&  ~D fatal error~:P~]~
      ~[~:;~:*~&  ~D error~:P~]~
      ~[~:;~:*~&  ~D warning~:P~]~
      ~[~:;~:*~&  ~D note~:P~]~2%"
     abort-p
     abort-count
     *compiler-error-count*
     *compiler-warning-count*
     *compiler-note-count*)))
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583
   
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;;;; Trace output:

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;;; Describe-Component  --  Internal
;;;
;;;    Print out some useful info about Component to Stream.
;;;
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(defun describe-component (component *standard-output*)
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  (declare (type component component))
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  (format t "~|~%;;;; Component: ~S~2%" (component-name component))
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  (print-blocks component)  
  (undefined-value))


(defun describe-ir2-component (component *standard-output*)
  (format t "~%~|~%;;;; IR2 component: ~S~2%" (component-name component))
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  (format t "Entries:~%")
  (dolist (entry (ir2-component-entries (component-info component)))
    (format t "~4TL~D: ~S~:[~; [Closure]~]~%"
	    (label-id (entry-info-offset entry))
	    (entry-info-name entry)
	    (entry-info-closure-p entry)))
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  (terpri)
  (pre-pack-tn-stats component *standard-output*)
  (terpri)
  (print-ir2-blocks component)
  (terpri)
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  (undefined-value))


;;;; File reading:
;;;
;;;    When reading from a file, we have to keep track of some source
;;; information.  We also exploit our ability to back up for printing 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 of getting the next
;;; source form.


;;; The File-Info structure holds all the source information for a given file.
;;;
(defstruct file-info
  ;;
  ;; If a file, the truename of the corresponding source file.  If from a Lisp
  ;; form, :LISP, if from a stream, :STREAM.
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  (name (required-argument) :type (or pathname (member :lisp :stream)))
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  ;;
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  ;; The defaulted, but not necessarily absolute file name (i.e. prior to
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  ;; TRUENAME call.)  Null if not a file.  This is used to set
  ;; *COMPILE-FILE-PATHNAME*, and if absolute, is dumped in the debug-info.
  (untruename nil :type (or pathname null))
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  ;;
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  ;; The file's write date (if relevant.)
  (write-date nil :type (or unsigned-byte null))
  ;;
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  ;; This file's FILE-COMMENT, or NIL if none.
  (comment nil :type (or simple-string null))
  ;;
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  ;; The source path root number of the first form in this file (i.e. the
  ;; total number of forms converted previously in this compilation.)
  (source-root 0 :type unsigned-byte)
  ;;
  ;; Parallel vectors containing the forms read out of the file and the file
  ;; positions that reading of each form started at (i.e. the end of the
  ;; previous form.)
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  (forms (make-array 10 :fill-pointer 0 :adjustable t) :type (vector t))
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  (positions (make-array 10 :fill-pointer 0 :adjustable t) :type (vector t))
  ;;
  ;; Language to use.  Normally Lisp, but sometimes Dylan.
  (language :lisp :type (member :lisp :dylan)))
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;;; The Source-Info structure provides a handle on all the source information
;;; for an entire compilation.
;;;
(defstruct (source-info
	    (:print-function
	     (lambda (s stream d)
	       (declare (ignore s d))
	       (format stream "#<Source-Info>"))))
  ;;
  ;; The UT that compilation started at.
  (start-time (get-universal-time) :type unsigned-byte)
  ;;
  ;; A list of the file-info structures for this compilation.
  (files nil :type list)
  ;;
  ;; The tail of the Files for the file we are currently reading.
  (current-file nil :type list)
  ;;
  ;; The stream that we are using to read the Current-File.  Null if no stream
  ;; has been opened yet.
  (stream nil :type (or stream null)))


;;; Make-File-Source-Info  --  Internal
;;;
;;;    Given a list of pathnames, return a Source-Info structure.
;;;
(defun make-file-source-info (files)
  (declare (list files))
  (let ((file-info
	 (mapcar #'(lambda (x)
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		     (make-file-info :name (truename x)
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				     :untruename x
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				     :write-date (file-write-date x)
				     :language
				     (if (string-equal (pathname-type x)
						       "dylan")
					 :dylan
					 :lisp)))
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		 files)))

    (make-source-info :files file-info
		      :current-file file-info)))


;;; MAKE-LISP-SOURCE-INFO  --  Interface
;;;
;;;    Return a SOURCE-INFO to describe the incremental compilation of Form.
;;; Also used by EVAL:INTERNAL-EVAL.
;;;
(defun make-lisp-source-info (form)
  (make-source-info
   :start-time (get-universal-time)
   :files (list (make-file-info :name :lisp
				:forms (vector form)
				:positions '#(0)))))


;;; MAKE-STREAM-SOURCE-INFO  --  Internal
;;;
;;;    Return a SOURCE-INFO which will read from Stream.
;;;
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(defun make-stream-source-info (stream language)
  (declare (type (member :lisp :dylan) language))
  (let ((files (list (make-file-info :name :stream :language language))))
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    (make-source-info
     :files files
     :current-file files
     :stream stream)))


;;; Normal-Read-Error  --  Internal
;;;
;;;    Print an error message for a non-EOF error on Stream.  Old-Pos is a
;;; preceding file position that hopefully comes before the beginning of the
;;; line.  Of course, this only works on streams that support the file-position
;;; operation.
;;;
(defun normal-read-error (stream old-pos condition)
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  (declare (type stream stream) (type unsigned-byte old-pos))
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  (let ((pos (file-position stream)))
    (file-position stream old-pos)
    (let ((start old-pos))
      (loop
	(let ((line (read-line stream nil))
	      (end (file-position stream)))
	  (when (>= end pos)
	    (compiler-error-message
	     "Read error at ~D:~% \"~A/\\~A\"~%~A"
	     pos
	     (string-left-trim " 	"
			       (subseq line 0 (- pos start)))
	     (subseq line (- pos start))
	     condition)
	    (return))
	  (setq start end)))))
  (undefined-value))


;;; Ignore-Error-Form  --  Internal
;;;
;;;    Back Stream up to the position Pos, then read a form with
;;; *Read-Suppress* on, discarding the result.  If an error happens during this
;;; read, then bail out using Compiler-Error (fatal in this context).
;;;
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(defun ignore-error-form (stream pos)
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  (declare (type stream stream) (type unsigned-byte pos))
  (file-position stream pos)
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  (handler-case (let ((*read-suppress* t)
		      (*features* (backend-features *target-backend*)))
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		  (read stream))
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    (error (condition)
      (declare (ignore condition))
      (compiler-error "Unable to recover from read error."))))


;;; Unexpected-EOF-Error  --  Internal
;;;
;;;    Print an error message giving some context for an EOF error.  We print
;;; the first line after Pos that contains #\" or #\(, or lacking that, the
;;; first non-empty line.
;;;
(defun unexpected-eof-error (stream pos condition)
  (declare (type stream stream) (type unsigned-byte pos))
  (let ((res nil))
    (file-position stream pos)
    (loop
      (let ((line (read-line stream nil nil))) 
	(unless line (return))
	(when (or (find #\" line) (find #\( line))
	  (setq res line)
	  (return))
	(unless (or res (zerop (length line)))
	  (setq res line))))

    (compiler-error-message
     "Read error in form starting at ~D:~%~@[ \"~A\"~%~]~A"
     pos res condition))

  (file-position stream (file-length stream))
  (undefined-value))


;;; Careful-Read  --  Internal
;;;
;;;    Read a form from Stream, returning EOF at EOF.  If a read error happens,
;;; then attempt to recover if possible, returing a proxy error form.
;;;
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(defun careful-read (stream eof pos)
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  (handler-case (let ((*features* (backend-features *target-backend*)))
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		  (read stream nil eof))
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    (error (condition)
      (let ((new-pos (file-position stream)))
	(cond ((= new-pos (file-length stream))
	       (unexpected-eof-error stream pos condition))
	      (t
	       (normal-read-error stream pos condition)
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	       (ignore-error-form stream pos))))
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      '(cerror "Skip this form."
	       "Attempt to load a file having a compile-time read error."))))
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;;; Get-Source-Stream  --  Internal
;;;
;;;    If Stream is present, return it, otherwise open a stream to the current
;;; file.  There must be a current file.  When we open a new file, we also
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;;; reset *Package* and policy.  This gives the effect of rebinding
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;;; around each file.
;;;
(defun get-source-stream (info)
  (declare (type source-info info))
  (cond ((source-info-stream info))
	(t
	 (setq *package* *initial-package*)
	 (setq *default-cookie* (copy-cookie *initial-cookie*))
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	 (setq *default-interface-cookie*
	       (copy-cookie *initial-interface-cookie*))
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	 (let* ((finfo (first (source-info-current-file info)))
		(name (file-info-name finfo)))
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	   (setq *compile-file-truename* name)
	   (setq *compile-file-pathname* (file-info-untruename finfo))
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	   (setf (source-info-stream info)
		 (open name :direction :input))))))
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;;; CLOSE-SOURCE-INFO  --  Internal
;;;
;;;    Close the stream in Info if it is open.
;;;
(defun close-source-info (info)
  (declare (type source-info info))
  (let ((stream (source-info-stream info)))
    (when stream (close stream)))
  (setf (source-info-stream info) nil)
  (undefined-value))


;;; Advance-Source-File  --  Internal
;;;
;;;    Advance Info to the next source file.  If none, return NIL, otherwise T.
;;;
(defun advance-source-file (info)
  (declare (type source-info info))
  (close-source-info info)
  (let ((prev (pop (source-info-current-file info))))
    (if (source-info-current-file info)
	(let ((current (first (source-info-current-file info))))
	  (setf (file-info-source-root current)
		(+ (file-info-source-root prev)
		   (length (file-info-forms prev))))
	  t)
	nil)))

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;;; PROCESS-SOURCES -- internal.
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;;;
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;;; Read the sources from the source files and process them.
;;; 
(defun process-sources (info)
  (let* ((file (first (source-info-current-file info)))
	 (language (file-info-language file))
	 (stream (get-source-stream info)))
    (ecase language
      (:lisp
       (loop
	 (let* ((pos (file-position stream))
		(eof '(*eof*))
		(form (careful-read stream eof pos)))
	   (if (eq form eof)
	       (return)
	       (let* ((forms (file-info-forms file))
		      (current-idx (+ (fill-pointer forms)
				      (file-info-source-root file))))
		 (vector-push-extend form forms)
		 (vector-push-extend pos (file-info-positions file))
		 (clrhash *source-paths*)
		 (find-source-paths form current-idx)
		 (process-form form
			       `(original-source-start 0 ,current-idx)))))))
      (:dylan
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       (setf *coalesce-constants* nil)
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       (let ((*error-output* *compiler-error-output*))
	 (dylan::parse-and-convert
	  stream
	  #'(lambda (form start-position)
	      (let* ((forms (file-info-forms file))
		     (current-idx (+ (fill-pointer forms)
				     (file-info-source-root file))))
		(vector-push-extend form forms)
		(vector-push-extend start-position (file-info-positions file))
		(clrhash *source-paths*)
		(process-form form
			      `(original-source-start 0 ,current-idx))))))))
    (when (advance-source-file info)
      (process-sources info))))
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;;; FIND-FILE-INFO  --  Interface
;;;
;;;    Return the File-Info describing the Index'th form.
;;;
(defun find-file-info (index info)
  (declare (type index index) (type source-info info))
  (dolist (file (source-info-files info))
    (when (> (+ (length (file-info-forms file))
		(file-info-source-root file))
	     index)
      (return file))))


;;; FIND-SOURCE-ROOT  --  Interface
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;;;
;;;    Return the Index'th source form read from Info and the position that it
;;; was read at.
;;;
(defun find-source-root (index info)
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  (declare (type source-info info) (type index index))
  (let* ((file (find-file-info index info))
	 (idx (- index (file-info-source-root file))))
    (values (aref (file-info-forms file) idx)
	    (aref (file-info-positions file) idx))))
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;;;; Top-level form processing:

;;; CONVERT-AND-MAYBE-COMPILE  --  Internal
;;;
;;;    Called by top-level form processing when we are ready to actually
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;;; compile something.  If *BLOCK-COMPILE* is T, then we still convert the
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;;; form, but delay compilation, pushing the result on *TOP-LEVEL-LAMBDAS*
;;; instead.
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;;;
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;;;   The cookies at this time becomes the default policy for compiling the
;;; form.  Any enclosed PROCLAIMs will affect only subsequent forms.
;;;
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(defun convert-and-maybe-compile (form path)
  (declare (list path))
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  (let ((orig (bytes-consed-between-gcs)))
    (unwind-protect
	(progn
	  (setf (bytes-consed-between-gcs) (* orig 4))
	  (let* ((*lexical-environment*
		  (make-lexenv :cookie *default-cookie*
			       :interface-cookie *default-interface-cookie*))
		 (tll (ir1-top-level form path nil)))
	    (cond ((eq *block-compile* t) (push tll *top-level-lambdas*))
		  (t
		   (compile-top-level (list tll) nil)))))
      (setf (bytes-consed-between-gcs) orig))))
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;;; PROCESS-PROGN  --  Internal
;;;
;;;    Process a PROGN-like portion of a top-level form.  Forms is a list of
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;;; the forms, and Path is source path of the form they came out of.
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;;;
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(defun process-progn (forms path)
  (declare (list forms) (list path))
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  (dolist (form forms)
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    (process-form form path)))
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;;; PREPROCESSOR-MACROEXPAND  --  Internal
;;;
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;;;    Macroexpand form in the current environment with an error handler.  We
;;; only expand one level, so that we retain all the intervening forms in the
;;; source path.
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;;;
(defun preprocessor-macroexpand (form)
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  (handler-case (macroexpand-1 form *lexical-environment*)
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    (error (condition)
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       (compiler-error "(during macroexpansion)~%~A" condition))))
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;;; PROCESS-LOCALLY  --  Internal
;;;
;;;    Process a top-level use of LOCALLY.  We parse declarations and then
;;; recursively process the body.
;;;
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;;;    Binding *DEFAULT-xxx-COOKIE* is pretty much of a hack, since it causes
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;;; LOCALLY to "capture" enclosed proclamations.  It is necessary because
;;; CONVERT-AND-MAYBE-COMPILE uses the value of *DEFAULT-COOKIE* as the policy.
;;; The need for this hack is due to the quirk that there is no way to
;;; represent in a cookie that an optimize quality came from the default.
;;;
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(defun process-locally (form path)
  (declare (list path))
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  (multiple-value-bind
      (body decls)
      (system:parse-body (cdr form) *lexical-environment* nil)
    (let* ((*lexical-environment*
	    (process-declarations decls nil nil (make-continuation)))
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	   (*default-cookie* (lexenv-cookie *lexical-environment*))
	   (*default-interface-cookie*
	    (lexenv-interface-cookie *lexical-environment*)))
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      (process-progn body path))))
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;;; PROCESS-FILE-COMMENT  --  Internal
;;;
;;;    Stash file comment in the file-info structure.
;;;
(defun process-file-comment (form)
  (unless (and (= (length form) 2) (stringp (second form)))
    (compiler-error "Bad FILE-COMMENT form: ~S." form))
  (let ((file (first (source-info-current-file *source-info*))))
    (cond ((file-info-comment file)
	   (compiler-warning "Ignoring extra file comment:~%  ~S." form))
	  (t
	   (let ((comment (coerce (second form) 'simple-string)))
	     (setf (file-info-comment file) comment)
	     (when *compile-verbose*
	       (compiler-mumble "~&Comment: ~A~2&" comment)))))))


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;;; PROCESS-COLD-LOAD-FORM  --  Internal
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;;;
;;;    Force any pending top-level forms to be compiled and dumped so that they
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;;; will be evaluated in the correct package environment.  Eval the form if
;;; Eval is true, then dump the form to evaled at (cold) load time.
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;;;
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(defun process-cold-load-form (form path eval)
  (let ((object *compile-object*))
    (etypecase object
      (fasl-file
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       (compile-top-level-lambdas () t)
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       (fasl-dump-cold-load-form form object))
      ((or null core-object)
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       (convert-and-maybe-compile form path)))
    (when eval (eval form))))
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;;; PROCESS-PROCLAIM  --  Internal
;;;
;;;    If a special block compilation delimiter, then start or end the block as
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;;; appropriate.  Otherwise, just convert-and-maybe-compile the form.  If
;;; *BLOCK-COMPILE* is NIL, then we ignore block declarations.
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;;;
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(defun process-proclaim (form path)
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  (if (and (eql (length form) 2) (constantp (cadr form)))
      (let ((spec (eval (cadr form))))
	(if (consp spec)
	    (case (first spec)
	      (start-block
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	       (when *block-compile*
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		 (finish-block-compilation)
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		 (setq *block-compile* t)
		 (setq *entry-points* (rest spec))))
	      (end-block
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	       (finish-block-compilation))
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	      (t
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	       (convert-and-maybe-compile form path)))
	    (convert-and-maybe-compile form path)))
      (convert-and-maybe-compile form path)))
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(proclaim '(special *compiler-error-bailout*))

;;; PROCESS-FORM  --  Internal
;;;
;;;    Process a top-level Form with the specified source Path and output to
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;;; Object.
;;; -- If this is a magic top-level form, then do stuff.
;;; -- If it is a macro expand it.
;;; -- Otherwise, just compile it.
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;;;
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(defun process-form (form path)
  (declare (list path))
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  (catch 'process-form-error-abort
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    (let* ((path (or (gethash form *source-paths*) (cons form path)))
	   (*compiler-error-bailout*
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	    #'(lambda ()
		(convert-and-maybe-compile
		 `(error "Execution of a form compiled with errors:~% ~S"
			 ',form)
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		 path)
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		(throw 'process-form-error-abort nil))))
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      (if (atom form)
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	  (convert-and-maybe-compile form path)
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	  (case (car form)
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	    ((make-package shadow shadowing-import export
	      unexport use-package unuse-package import
	      old-in-package %in-package)
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	     (process-cold-load-form form path t))
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	    ((error cerror break signal)
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	     (process-cold-load-form form path nil))
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	    (kernel:%compiler-defstruct
	     (convert-and-maybe-compile form path)
	     (compile-top-level-lambdas () t))
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	    ((eval-when)
	     (unless (>= (length form) 2)
	       (compiler-error "EVAL-WHEN form is too short: ~S." form))
	     (do-eval-when-stuff
	      (cadr form) (cddr form)
	      #'(lambda (forms)
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		  (process-progn forms path))))
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	    ((macrolet)
	     (unless (>= (length form) 2)
	       (compiler-error "MACROLET form is too short: ~S." form))
	     (do-macrolet-stuff
	      (cadr form)
	      #'(lambda ()
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		  (process-progn (cddr form) path))))
	    (locally (process-locally form path))
	    (progn (process-progn (cdr form) path))
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	    (file-comment (process-file-comment form))
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	    (proclaim (process-proclaim form path))
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	    (t
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	     (let ((exp (preprocessor-macroexpand form)))
	       (if (eq exp form)
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		   (convert-and-maybe-compile form path)
		   (process-form exp path))))))))
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  (undefined-value))

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;;;; Load time value support.

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;;; See EMIT-MAKE-LOAD-FORM.

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;;; PRODUCING-FASL-FILE  --  interface.
;;;
;;; Returns T iff we are currently producing a fasl-file and hence constants
;;; need to be dumped carfully.
;;; 
(defun producing-fasl-file ()
  (unless *converting-for-interpreter*
    (fasl-file-p *compile-object*)))

;;; COMPILE-LOAD-TIME-VALUE  --  interface.
;;;
;;; Compile FORM and arrange for it to be called at load-time.  Returns 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))
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		     (format nil "Load Time Value of ~S"
			     (if (and (listp form)
				      (eq (car form) 'make-value-cell))
				 (second form)
				 form)))))
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  (let ((lambda (compile-load-time-stuff form name t)))
    (values
     (fasl-dump-load-time-value-lambda lambda *compile-object*)
     (let ((type (leaf-type lambda)))
       (if (function-type-p type)
	   (single-value-type (function-type-returns type))
	   *wild-type*)))))

;;; COMPILE-MAKE-LOAD-FORM-INIT-FORMS  --  internal.
;;;
;;; 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)))
    (fasl-dump-top-level-lambda-call lambda *compile-object*)))

;;; COMPILE-LOAD-TIME-STUFF  --  internal.
;;;
;;; 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)
  (with-ir1-namespace
   (let* ((*lexical-environment* (make-null-environment))
	  (lambda (ir1-top-level form *current-path* for-value)))
     (setf (leaf-name lambda) name)
     (compile-top-level (list lambda) t)
     lambda)))

;;; COMPILE-LOAD-TIME-VALUE-LAMBDA  --  internal.
;;;
;;; Called by COMPILE-TOP-LEVEL when it was pased T for LOAD-TIME-VALUE-P
;;; (which happens in COMPILE-LOAD-TIME-STUFF).  We don't try to combine
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;;; this component with anything else and frob the name.  If not in a
;;; :TOP-LEVEL component, then don't bother compiling, because it was merged
;;; with a run-time component.
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;;; 
(defun compile-load-time-value-lambda (lambdas)
  (assert (null (cdr lambdas)))
  (let* ((lambda (car lambdas))
	 (component (block-component (node-block (lambda-bind lambda)))))
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    (when (eq (component-kind component) :top-level)
      (setf (component-name component) (leaf-name lambda))
      (compile-component component)
      (clear-ir1-info component))))
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;;; EMIT-MAKE-LOAD-FORM  --  interface.
;;;
;;; The entry point for MAKE-LOAD-FORM support.  When IR1 conversion finds a
;;; constant structure, it invokes this to arrange for proper dumping.  If it
;;; turns out that the constant has already been dumped, then we don't need
;;; to do anything.
;;;
;;; If the constant hasn't been dumped, then we check to see if we are in the
;;; process of creating it.  We detect this by maintaining the special
;;; *constants-being-created* as a list of all the constants we are in the
;;; process of creating.  Actually, each entry is a list of the constant and
;;; any init forms that need to be processed on behalf of that constant.
;;;
;;; It's not necessarily an error for this to happen.  If we are processing the
;;; init form for some object that showed up *after* the original reference
;;; to this constant, then we just need to defer the processing of that init
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;;; form.  To detect this, we maintain *constants-created-since-last-init* as
;;; a list of the constants created since the last time we started processing
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;;; an init form.  If the constant passed to emit-make-load-form shows up in
;;; this list, then there is a circular chain through creation forms, which is
;;; an error.
;;;
;;; If there is some intervening init form, then we blow out of processing it
;;; by throwing to the tag PENDING-INIT.  The value we throw is the entry from
;;; *constants-being-created*.  This is so the offending init form can be
;;; tacked onto the init forms for the circular object.
;;;
;;; 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 if the creation
;;; form is the magic value :just-dump-it-normally.  If it is, then we don't
;;; do anything.  The dumper will eventually get it's hands on the object
;;; and use the normal structure dumping noise on it.
;;;
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;;; Otherwise, we bind *constants-being-created* and *constants-created-since-
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;;; last-init* and compile the creation form a la load-time-value.  When this
;;; finishes, we tell the dumper to use that result instead whenever it sees
;;; this constant.
;;;
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;;; Now we try to compile the init form.  We bind *constants-created-since-
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;;; last-init* to NIL and compile the init form (and any init forms that were
;;; added because of circularity detection).  If this works, great.  If not,
;;; we add the init forms to the init forms for the object that caused the
;;; problems and let it deal with it.
;;; 
(defvar *constants-being-created* nil)
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(defvar *constants-created-since-last-init* nil)
;;; 
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(defun emit-make-load-form (constant)
  (assert (fasl-file-p *compile-object*))
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  (unless (fasl-constant-already-dumped constant *compile-object*)
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    (let ((circular-ref (assoc constant *constants-being-created* :test #'eq)))
      (when circular-ref
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	(when (find constant *constants-created-since-last-init* :test #'eq)
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	  (throw constant t))
	(throw 'pending-init circular-ref)))
    (multiple-value-bind
	(creation-form init-form)
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	(handler-case
	    (if (fboundp 'lisp::make-load-form)
		(locally
		 (declare (optimize (inhibit-warnings 3)))
		 (lisp::make-load-form constant (make-null-environment)))
		(make-structure-load-form constant))
	  (error (condition)
		 (compiler-error "(while making load form for ~S)~%~A"
				 constant condition)))
      (case creation-form
	(:just-dump-it-normally
	 (fasl-validate-structure constant *compile-object*)
	 t)
	(:ignore-it
	 nil)
	(t
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	 (compile-top-level-lambdas () t)
	 (when (fasl-constant-already-dumped constant *compile-object*)
	   (return-from emit-make-load-form nil))
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	 (let* ((name (let ((*print-level* 1) (*print-length* 2))
			(with-output-to-string (stream)
			  (write constant :stream stream))))
		(info (if init-form
			  (list constant name init-form)
			  (list constant))))
	   (let ((*constants-being-created*
		  (cons info *constants-being-created*))
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		 (*constants-created-since-last-init*
		  (cons constant *constants-created-since-last-init*)))
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	     (when
		 (catch constant
		   (fasl-note-handle-for-constant
		    constant
		    (compile-load-time-value
		     creation-form
		     (format nil "Creation Form for ~A" name))
		    *compile-object*)
		   nil)
	       (compiler-error "Circular references in creation form for ~S"
			       constant)))
	   (when (cdr info)
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	     (let* ((*constants-created-since-last-init* nil)
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		    (circular-ref
		     (catch 'pending-init
		       (loop for (name form) on (cdr info) by #'cddr
			 collect name into names
			 collect form into forms
			 finally do
			 (compile-make-load-form-init-forms
			  forms
			  (format nil "Init Form~:[~;s~] for ~{~A~^, ~}"
				  (cdr forms) names)))
		       nil)))
	       (when circular-ref
		 (setf (cdr circular-ref)
		       (append (cdr circular-ref) (cdr info))))))))))))
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1321

;;;; COMPILE-FILE and COMPILE-FROM-STREAM: 

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;;; We build a list of top-level lambdas, and then periodically smash them
;;; together into a single component and compile it.
;;;
(defvar *pending-top-level-lambdas*)

;;; The maximum number of top-level lambdas we put in a single top-level
;;; component.
;;;
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(defparameter top-level-lambda-max 10)
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;;; OBJECT-CALL-TOP-LEVEL-LAMBDA  --  Internal
;;;
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(defun object-call-top-level-lambda (tll)
  (declare (type functional tll))
  (let ((object *compile-object*))
    (etypecase object
      (fasl-file
       (fasl-dump-top-level-lambda-call tll object))
      (core-object
       (core-call-top-level-lambda tll object))
      (null))))
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;;; SUB-COMPILE-TOP-LEVEL-LAMBDAS  --  Internal
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;;;
;;;    Add Lambdas to the pending lambdas.  If this leaves more than
;;; TOP-LEVEL-LAMBDA-MAX lambdas in the list, or if Force-P is true, then smash
;;; the lambdas into a single component, compile it, and call the resulting
;;; function.
;;;
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(defun sub-compile-top-level-lambdas (lambdas force-p)
  (declare (list lambdas))
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  (setq *pending-top-level-lambdas*
	(append *pending-top-level-lambdas* lambdas))
  (let ((pending *pending-top-level-lambdas*))
    (when (and pending
	       (or (> (length pending) top-level-lambda-max)
		   force-p))
      (multiple-value-bind (component tll)
			   (merge-top-level-lambdas pending)
	(setq *pending-top-level-lambdas* ())
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	(let ((*byte-compile* (if (eq *byte-compile* :maybe)
				  *byte-compile-top-level*
				  *byte-compile*)))
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	  (compile-component component))
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	(clear-ir1-info component)
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	(object-call-top-level-lambda tll))))
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  (undefined-value))


;;; COMPILE-TOP-LEVEL-LAMBDAS  --  Internal
;;;
;;;    Compile top-level code and call the Top-Level lambdas.  We pick off
;;; top-level lambdas in non-top-level components here, calling SUB-c-t-l-l on
;;; each subsequence of normal top-level lambdas.
;;;
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(defun compile-top-level-lambdas (lambdas force-p)
  (declare (list lambdas))
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  (let ((len (length lambdas)))
    (flet ((loser (start)
	     (or (position-if #'(lambda (x)
				  (not (eq (component-kind
					    (block-component
					     (node-block
					      (lambda-bind x))))
					   :top-level)))
			      lambdas
			      :start start)
		 len)))
      (do* ((start 0 (1+ loser))
	    (loser (loser start) (loser start)))
	   ((>= start len)
	    (when force-p
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	      (sub-compile-top-level-lambdas nil t)))
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	(sub-compile-top-level-lambdas (subseq lambdas start loser)
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				       (or force-p (/= loser len)))
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	(unless (= loser len)
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	  (object-call-top-level-lambda (elt lambdas loser))))))
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  (undefined-value))


;;; Compile-Top-Level  --  Internal
;;;
;;;    Compile Lambdas (a list of the lambdas for top-level forms) into the
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;;; Object file.  We loop doing local call analysis until it converges, since a
;;; single pass might miss something due to components being joined by let
;;; conversion.
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;;;
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(defun compile-top-level (lambdas load-time-value-p)
  (declare (list lambdas))
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  (maybe-mumble "Locall ")
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  (loop
    (let ((did-something nil))
      (dolist (lambda lambdas)
	(let* ((component (block-component (node-block (lambda-bind lambda))))
	       (*all-components* (list component)))
	  (when (component-new-functions component)
	    (setq did-something t)
	    (local-call-analyze component))))
      (unless did-something (return))))
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  (maybe-mumble "IDFO ")