;;;; for !COLD-INIT to be called at cold load time. !COLD-INIT is
;;;; responsible for explicitly initializing anything which has to be
;;;; initialized early before it transfers control to the ordinary
-;;;; top-level forms.
+;;;; top level forms.
;;;;
;;;; (In CMU CL, and in SBCL as of 0.6.9 anyway, functions not defined
;;;; by DEFUN aren't set up specially by GENESIS. In particular,
"Round NUMBER up to be an integral multiple of SIZE."
(* size (ceiling number size)))
\f
+;;;; implementing the concept of "vector" in (almost) portable
+;;;; Common Lisp
+;;;;
+;;;; "If you only need to do such simple things, it doesn't really
+;;;; matter which language you use." -- _ANSI Common Lisp_, p. 1, Paul
+;;;; Graham (evidently not considering the abstraction "vector" to be
+;;;; such a simple thing:-)
+
+(eval-when (:compile-toplevel :load-toplevel :execute)
+ (defconstant +smallvec-length+
+ (expt 2 16)))
+
+;;; an element of a BIGVEC -- a vector small enough that we have
+;;; a good chance of it being portable to other Common Lisps
+(deftype smallvec ()
+ `(simple-array (unsigned-byte 8) (,+smallvec-length+)))
+
+(defun make-smallvec ()
+ (make-array +smallvec-length+ :element-type '(unsigned-byte 8)))
+
+;;; a big vector, implemented as a vector of SMALLVECs
+;;;
+;;; KLUDGE: This implementation seems portable enough for our
+;;; purposes, since realistically every modern implementation is
+;;; likely to support vectors of at least 2^16 elements. But if you're
+;;; masochistic enough to read this far into the contortions imposed
+;;; on us by ANSI and the Lisp community, for daring to use the
+;;; abstraction of a large linearly addressable memory space, which is
+;;; after all only directly supported by the underlying hardware of at
+;;; least 99% of the general-purpose computers in use today, then you
+;;; may be titillated to hear that in fact this code isn't really
+;;; portable, because as of sbcl-0.7.4 we need somewhat more than
+;;; 16Mbytes to represent a core, and ANSI only guarantees that
+;;; ARRAY-DIMENSION-LIMIT is not less than 1024. -- WHN 2002-06-13
+(defstruct bigvec
+ (outer-vector (vector (make-smallvec)) :type (vector smallvec)))
+
+;;; analogous to SVREF, but into a BIGVEC
+(defun bvref (bigvec index)
+ (multiple-value-bind (outer-index inner-index)
+ (floor index +smallvec-length+)
+ (aref (the smallvec
+ (svref (bigvec-outer-vector bigvec) outer-index))
+ inner-index)))
+(defun (setf bvref) (new-value bigvec index)
+ (multiple-value-bind (outer-index inner-index)
+ (floor index +smallvec-length+)
+ (setf (aref (the smallvec
+ (svref (bigvec-outer-vector bigvec) outer-index))
+ inner-index)
+ new-value)))
+
+;;; analogous to LENGTH, but for a BIGVEC
+;;;
+;;; the length of BIGVEC, measured in the number of BVREFable bytes it
+;;; can hold
+(defun bvlength (bigvec)
+ (* (length (bigvec-outer-vector bigvec))
+ +smallvec-length+))
+
+;;; analogous to WRITE-SEQUENCE, but for a BIGVEC
+(defun write-bigvec-as-sequence (bigvec stream &key (start 0) end)
+ (loop for i of-type index from start below (or end (bvlength bigvec)) do
+ (write-byte (bvref bigvec i)
+ stream)))
+
+;;; analogous to READ-SEQUENCE-OR-DIE, but for a BIGVEC
+(defun read-bigvec-as-sequence-or-die (bigvec stream &key (start 0) end)
+ (loop for i of-type index from start below (or end (bvlength bigvec)) do
+ (setf (bvref bigvec i)
+ (read-byte stream))))
+
+;;; Grow BIGVEC (exponentially, so that large increases in size have
+;;; asymptotic logarithmic cost per byte).
+(defun expand-bigvec (bigvec)
+ (let* ((old-outer-vector (bigvec-outer-vector bigvec))
+ (length-old-outer-vector (length old-outer-vector))
+ (new-outer-vector (make-array (* 2 length-old-outer-vector))))
+ (dotimes (i length-old-outer-vector)
+ (setf (svref new-outer-vector i)
+ (svref old-outer-vector i)))
+ (loop for i from length-old-outer-vector below (length new-outer-vector) do
+ (setf (svref new-outer-vector i)
+ (make-smallvec)))
+ (setf (bigvec-outer-vector bigvec)
+ new-outer-vector))
+ bigvec)
+\f
+;;;; looking up bytes and multi-byte values in a BIGVEC (considering
+;;;; it as an image of machine memory)
+
+;;; BVREF-32 and friends. These are like SAP-REF-n, except that
+;;; instead of a SAP we use a BIGVEC.
+(macrolet ((make-bvref-n
+ (n)
+ (let* ((name (intern (format nil "BVREF-~A" n)))
+ (number-octets (/ n 8))
+ (ash-list-le
+ (loop for i from 0 to (1- number-octets)
+ collect `(ash (bvref bigvec (+ byte-index ,i))
+ ,(* i 8))))
+ (ash-list-be
+ (loop for i from 0 to (1- number-octets)
+ collect `(ash (bvref bigvec
+ (+ byte-index
+ ,(- number-octets 1 i)))
+ ,(* i 8))))
+ (setf-list-le
+ (loop for i from 0 to (1- number-octets)
+ append
+ `((bvref bigvec (+ byte-index ,i))
+ (ldb (byte 8 ,(* i 8)) new-value))))
+ (setf-list-be
+ (loop for i from 0 to (1- number-octets)
+ append
+ `((bvref bigvec (+ byte-index ,i))
+ (ldb (byte 8 ,(- n 8 (* i 8))) new-value)))))
+ `(progn
+ (defun ,name (bigvec byte-index)
+ (aver (= sb!vm:n-word-bits 32))
+ (aver (= sb!vm:n-byte-bits 8))
+ (logior ,@(ecase sb!c:*backend-byte-order*
+ (:little-endian ash-list-le)
+ (:big-endian ash-list-be))))
+ (defun (setf ,name) (new-value bigvec byte-index)
+ (aver (= sb!vm:n-word-bits 32))
+ (aver (= sb!vm:n-byte-bits 8))
+ (setf ,@(ecase sb!c:*backend-byte-order*
+ (:little-endian setf-list-le)
+ (:big-endian setf-list-be))))))))
+ (make-bvref-n 8)
+ (make-bvref-n 16)
+ (make-bvref-n 32))
+\f
;;;; representation of spaces in the core
;;; If there is more than one dynamic space in memory (i.e., if a
;;; copying GC is in use), then only the active dynamic space gets
;;; dumped to core.
(defvar *dynamic*)
-(defconstant dynamic-space-id 1)
+(defconstant dynamic-core-space-id 1)
(defvar *static*)
-(defconstant static-space-id 2)
+(defconstant static-core-space-id 2)
(defvar *read-only*)
-(defconstant read-only-space-id 3)
+(defconstant read-only-core-space-id 3)
(defconstant descriptor-low-bits 16
"the number of bits in the low half of the descriptor")
"the alignment requirement for spaces in the target.
Must be at least (ASH 1 DESCRIPTOR-LOW-BITS)")
-;;; a GENESIS-time representation of a memory space (e.g. read-only space,
-;;; dynamic space, or static space)
+;;; a GENESIS-time representation of a memory space (e.g. read-only
+;;; space, dynamic space, or static space)
(defstruct (gspace (:constructor %make-gspace)
(:copier nil))
;; name and identifier for this GSPACE
- (name (required-argument) :type symbol :read-only t)
- (identifier (required-argument) :type fixnum :read-only t)
+ (name (missing-arg) :type symbol :read-only t)
+ (identifier (missing-arg) :type fixnum :read-only t)
;; the word address where the data will be loaded
- (word-address (required-argument) :type unsigned-byte :read-only t)
- ;; the data themselves. (Note that in CMU CL this was a pair
- ;; of fields SAP and WORDS-ALLOCATED, but that wasn't very portable.)
- (bytes (make-array target-space-alignment :element-type '(unsigned-byte 8))
- :type (simple-array (unsigned-byte 8) 1))
+ (word-address (missing-arg) :type unsigned-byte :read-only t)
+ ;; the data themselves. (Note that in CMU CL this was a pair of
+ ;; fields SAP and WORDS-ALLOCATED, but that wasn't very portable.)
+ ;; (And then in SBCL this was a VECTOR, but turned out to be
+ ;; unportable too, since ANSI doesn't think that arrays longer than
+ ;; 1024 (!) should needed by portable CL code...)
+ (bytes (make-bigvec) :read-only t)
;; the index of the next unwritten word (i.e. chunk of
- ;; SB!VM:WORD-BYTES bytes) in BYTES, or equivalently the number of
+ ;; SB!VM:N-WORD-BYTES bytes) in BYTES, or equivalently the number of
;; words actually written in BYTES. In order to convert to an actual
- ;; index into BYTES, thus must be multiplied by SB!VM:WORD-BYTES.
+ ;; index into BYTES, thus must be multiplied by SB!VM:N-WORD-BYTES.
(free-word-index 0))
(defun gspace-byte-address (gspace)
(%make-gspace :name name
:identifier identifier
:word-address (ash byte-address (- sb!vm:word-shift))))
-
-;;; KLUDGE: Doing it this way seems to partly replicate the
-;;; functionality of Common Lisp adjustable arrays. Is there any way
-;;; to do this stuff in one line of code by using standard Common Lisp
-;;; stuff? -- WHN 19990816
-(defun expand-gspace-bytes (gspace)
- (let* ((old-bytes (gspace-bytes gspace))
- (old-length (length old-bytes))
- (new-length (* 2 old-length))
- (new-bytes (make-array new-length :element-type '(unsigned-byte 8))))
- (replace new-bytes old-bytes :end1 old-length)
- (setf (gspace-bytes gspace)
- new-bytes))
- (values))
\f
;;;; representation of descriptors
;; the GSPACE that this descriptor is allocated in, or NIL if not set yet.
(gspace nil :type (or gspace null))
;; the offset in words from the start of GSPACE, or NIL if not set yet
- (word-offset nil :type (or (unsigned-byte #.sb!vm:word-bits) null))
+ (word-offset nil :type (or (unsigned-byte #.sb!vm:n-word-bits) null))
;; the high and low halves of the descriptor
;;
;; KLUDGE: Judging from the comments in genesis.lisp of the CMU CL
(ash (descriptor-low des)
(- 1 sb!vm:n-lowtag-bits)))))
(format stream
- "for fixnum: ~D"
+ "for fixnum: ~W"
(if (> unsigned #x1FFFFFFF)
(- unsigned #x40000000)
unsigned))))
;; Grow GSPACE as necessary until it's big enough to handle
;; NEW-FREE-WORD-INDEX.
(do ()
- ((>= (length (gspace-bytes gspace))
- (* new-free-word-index sb!vm:word-bytes)))
- (expand-gspace-bytes gspace))
+ ((>= (bvlength (gspace-bytes gspace))
+ (* new-free-word-index sb!vm:n-word-bytes)))
+ (expand-bigvec (gspace-bytes gspace)))
;; Now that GSPACE is big enough, we can meaningfully grab a chunk of it.
(setf (gspace-free-word-index gspace) new-free-word-index)
(let ((ptr (+ (gspace-word-address gspace) old-free-word-index)))
(defun descriptor-fixnum (des)
(let ((bits (descriptor-bits des)))
- (if (logbitp (1- sb!vm:word-bits) bits)
- ;; KLUDGE: The (- SB!VM:WORD-BITS 2) term here looks right to
- ;; me, and it works, but in CMU CL it was (1- SB!VM:WORD-BITS),
+ (if (logbitp (1- sb!vm:n-word-bits) bits)
+ ;; KLUDGE: The (- SB!VM:N-WORD-BITS 2) term here looks right to
+ ;; me, and it works, but in CMU CL it was (1- SB!VM:N-WORD-BITS),
;; and although that doesn't make sense for me, or work for me,
;; it's hard to see how it could have been wrong, since CMU CL
;; genesis worked. It would be nice to understand how this came
;; to be.. -- WHN 19990901
- (logior (ash bits -2) (ash -1 (- sb!vm:word-bits 2)))
+ (logior (ash bits -2) (ash -1 (- sb!vm:n-word-bits 2)))
(ash bits -2))))
;;; common idioms
(defun make-random-descriptor (value)
(make-descriptor (logand (ash value (- descriptor-low-bits))
(1- (ash 1
- (- sb!vm:word-bits descriptor-low-bits))))
+ (- sb!vm:n-word-bits
+ descriptor-low-bits))))
(logand value (1- (ash 1 descriptor-low-bits)))))
(defun make-fixnum-descriptor (num)
(when (>= (integer-length num)
- (1+ (- sb!vm:word-bits sb!vm:n-lowtag-bits)))
- (error "~D is too big for a fixnum." num))
+ (1+ (- sb!vm:n-word-bits sb!vm:n-lowtag-bits)))
+ (error "~W is too big for a fixnum." num))
(make-random-descriptor (ash num (1- sb!vm:n-lowtag-bits))))
(defun make-other-immediate-descriptor (data type)
;;; pathname), or NIL if we're not currently cold loading any object file
(defvar *cold-load-filename* nil)
(declaim (type (or string null) *cold-load-filename*))
-
-;;; This is vestigial support for the CMU CL byte-swapping code. CMU
-;;; CL code tested for whether it needed to swap bytes in GENESIS by
-;;; comparing the byte order of *BACKEND* to the byte order of
-;;; *NATIVE-BACKEND*, a concept which doesn't exist in SBCL. Instead,
-;;; in SBCL byte order swapping would need to be explicitly requested
-;;; with a &KEY argument to GENESIS.
-;;;
-;;; I'm not sure whether this is a problem or not, and I don't have a
-;;; machine with different byte order to test to find out for sure.
-;;; The version of the system which is fed to the cross-compiler is
-;;; now written in a subset of Common Lisp which doesn't require
-;;; dumping a lot of things in such a way that machine byte order
-;;; matters. (Mostly this is a matter of not using any specialized
-;;; array type unless there's portable, high-level code to dump it.)
-;;; If it *is* a problem, and you're trying to resurrect this code,
-;;; please test particularly carefully, since I haven't had a chance
-;;; to test the byte-swapping code at all. -- WHN 19990816
-;;;
-;;; When this variable is non-NIL, byte-swapping is enabled wherever
-;;; classic GENESIS would have done it. I.e. the value of this variable
-;;; is the logical complement of
-;;; (EQ (SB!C:BACKEND-BYTE-ORDER SB!C:*NATIVE-BACKEND*)
-;;; (SB!C:BACKEND-BYTE-ORDER SB!C:*BACKEND*))
-;;; from CMU CL.
-(defvar *genesis-byte-order-swap-p*)
\f
;;;; miscellaneous stuff to read and write the core memory
"Push THING onto the given cold-load LIST."
`(setq ,list (cold-cons ,thing ,list)))
-(defun maybe-byte-swap (word)
- (declare (type (unsigned-byte 32) word))
- (aver (= sb!vm:word-bits 32))
- (aver (= sb!vm:byte-bits 8))
- (if (not *genesis-byte-order-swap-p*)
- word
- (logior (ash (ldb (byte 8 0) word) 24)
- (ash (ldb (byte 8 8) word) 16)
- (ash (ldb (byte 8 16) word) 8)
- (ldb (byte 8 24) word))))
-
-(defun maybe-byte-swap-short (short)
- (declare (type (unsigned-byte 16) short))
- (aver (= sb!vm:word-bits 32))
- (aver (= sb!vm:byte-bits 8))
- (if (not *genesis-byte-order-swap-p*)
- short
- (logior (ash (ldb (byte 8 0) short) 8)
- (ldb (byte 8 8) short))))
-
-;;; BYTE-VECTOR-REF-32 and friends. These are like SAP-REF-n, except
-;;; that instead of a SAP we use a byte vector
-(macrolet ((make-byte-vector-ref-n
- (n)
- (let* ((name (intern (format nil "BYTE-VECTOR-REF-~A" n)))
- (number-octets (/ n 8))
- (ash-list
- (loop for i from 0 to (1- number-octets)
- collect `(ash (aref byte-vector (+ byte-index ,i))
- ,(* i 8))))
- (setf-list
- (loop for i from 0 to (1- number-octets)
- append
- `((aref byte-vector (+ byte-index ,i))
- (ldb (byte 8 ,(* i 8)) new-value)))))
- `(progn
- (defun ,name (byte-vector byte-index)
- (aver (= sb!vm:word-bits 32))
- (aver (= sb!vm:byte-bits 8))
- (ecase sb!c:*backend-byte-order*
- (:little-endian
- (logior ,@ash-list))
- (:big-endian
- (error "stub: no big-endian ports of SBCL (yet?)"))))
- (defun (setf ,name) (new-value byte-vector byte-index)
- (aver (= sb!vm:word-bits 32))
- (aver (= sb!vm:byte-bits 8))
- (ecase sb!c:*backend-byte-order*
- (:little-endian
- (setf ,@setf-list))
- (:big-endian
- (error "stub: no big-endian ports of SBCL (yet?)"))))))))
- (make-byte-vector-ref-n 8)
- (make-byte-vector-ref-n 16)
- (make-byte-vector-ref-n 32))
-
(declaim (ftype (function (descriptor sb!vm:word) descriptor) read-wordindexed))
(defun read-wordindexed (address index)
#!+sb-doc
(bytes (gspace-bytes gspace))
(byte-index (ash (+ index (descriptor-word-offset address))
sb!vm:word-shift))
- ;; KLUDGE: Do we really need to do byte swap here? It seems
- ;; as though we shouldn't.. (This attempts to be a literal
- ;; translation of CMU CL code, and I don't have a big-endian
- ;; machine to test it.) -- WHN 19990817
- (value (maybe-byte-swap (byte-vector-ref-32 bytes byte-index))))
+ (value (bvref-32 bytes byte-index)))
(make-random-descriptor value)))
(declaim (ftype (function (descriptor) descriptor) read-memory))
(read-wordindexed address 0))
;;; (Note: In CMU CL, this function expected a SAP-typed ADDRESS
-;;; value, instead of the SAPINT we use here.)
-(declaim (ftype (function (sb!vm:word descriptor) (values)) note-load-time-value-reference))
+;;; value, instead of the SAP-INT we use here.)
+(declaim (ftype (function (sb!vm:word descriptor) (values))
+ note-load-time-value-reference))
(defun note-load-time-value-reference (address marker)
(cold-push (cold-cons
(cold-intern :load-time-value-fixup)
- (cold-cons (sapint-to-core address)
+ (cold-cons (sap-int-to-core address)
(cold-cons
(number-to-core (descriptor-word-offset marker))
*nil-descriptor*)))
sb!vm:lowtag-mask)
(ash index sb!vm:word-shift))
value)
- ;; Note: There's a MAYBE-BYTE-SWAP in here in CMU CL, which I
- ;; think is unnecessary now that we're doing the write
- ;; byte-by-byte at high level. (I can't test this, though..) --
- ;; WHN 19990817
(let* ((bytes (gspace-bytes (descriptor-intuit-gspace address)))
(byte-index (ash (+ index (descriptor-word-offset address))
sb!vm:word-shift)))
- (setf (byte-vector-ref-32 bytes byte-index)
- (maybe-byte-swap (descriptor-bits value))))))
+ (setf (bvref-32 bytes byte-index)
+ (descriptor-bits value)))))
(declaim (ftype (function (descriptor descriptor)) write-memory))
(defun write-memory (address value)
"Allocate LENGTH units of ELEMENT-BITS bits plus a header word in GSPACE and
return an ``other-pointer'' descriptor to them. Initialize the header word
with the resultant length and TYPE."
- (let* ((bytes (/ (* element-bits length) sb!vm:byte-bits))
+ (let* ((bytes (/ (* element-bits length) sb!vm:n-byte-bits))
(des (allocate-cold-descriptor gspace
- (+ bytes sb!vm:word-bytes)
+ (+ bytes sb!vm:n-word-bytes)
sb!vm:other-pointer-lowtag)))
(write-memory des
(make-other-immediate-descriptor (ash bytes
header word with TYPE and the length slot with LENGTH."
;; FIXME: Here and in ALLOCATE-UNBOXED-OBJECT, BYTES is calculated using
;; #'/ instead of #'CEILING, which seems wrong.
- (let* ((bytes (/ (* element-bits length) sb!vm:byte-bits))
+ (let* ((bytes (/ (* element-bits length) sb!vm:n-byte-bits))
(des (allocate-cold-descriptor gspace
- (+ bytes (* 2 sb!vm:word-bytes))
+ (+ bytes (* 2 sb!vm:n-word-bytes))
sb!vm:other-pointer-lowtag)))
(write-memory des (make-other-immediate-descriptor 0 type))
(write-wordindexed des
;; extra null byte at the end to aid in call-out to C.)
(let* ((length (length string))
(des (allocate-vector-object gspace
- sb!vm:byte-bits
+ sb!vm:n-byte-bits
(1+ length)
sb!vm:simple-string-widetag))
(bytes (gspace-bytes gspace))
- (offset (+ (* sb!vm:vector-data-offset sb!vm:word-bytes)
+ (offset (+ (* sb!vm:vector-data-offset sb!vm:n-word-bytes)
(descriptor-byte-offset des))))
(write-wordindexed des
sb!vm:vector-length-slot
(make-fixnum-descriptor length))
(dotimes (i length)
- (setf (aref bytes (+ offset i))
+ (setf (bvref bytes (+ offset i))
;; KLUDGE: There's no guarantee that the character
;; encoding here will be the same as the character
;; encoding on the target machine, so using CHAR-CODE as
;; indices into the sequence which is used to test whether
;; a character is a STANDARD-CHAR?) -- WHN 19990817
(char-code (aref string i))))
- (setf (aref bytes (+ offset length))
+ (setf (bvref bytes (+ offset length))
0) ; null string-termination character for C
des))
(defun bignum-to-core (n)
#!+sb-doc
"Copy a bignum to the cold core."
- (let* ((words (ceiling (1+ (integer-length n)) sb!vm:word-bits))
+ (let* ((words (ceiling (1+ (integer-length n)) sb!vm:n-word-bits))
(handle (allocate-unboxed-object *dynamic*
- sb!vm:word-bits
+ sb!vm:n-word-bits
words
sb!vm:bignum-widetag)))
(declare (fixnum words))
(do ((index 1 (1+ index))
- (remainder n (ash remainder (- sb!vm:word-bits))))
+ (remainder n (ash remainder (- sb!vm:n-word-bits))))
((> index words)
(unless (zerop (integer-length remainder))
;; FIXME: Shouldn't this be a fatal error?
- (warn "~D words of ~D were written, but ~D bits were left over."
+ (warn "~W words of ~W were written, but ~W bits were left over."
words n remainder)))
- (let ((word (ldb (byte sb!vm:word-bits 0) remainder)))
+ (let ((word (ldb (byte sb!vm:n-word-bits 0) remainder)))
(write-wordindexed handle index
(make-descriptor (ash word (- descriptor-low-bits))
(ldb (byte descriptor-low-bits 0)
(defun number-pair-to-core (first second type)
#!+sb-doc
"Makes a number pair of TYPE (ratio or complex) and fills it in."
- (let ((des (allocate-unboxed-object *dynamic* sb!vm:word-bits 2 type)))
+ (let ((des (allocate-unboxed-object *dynamic* sb!vm:n-word-bits 2 type)))
(write-wordindexed des 1 first)
(write-wordindexed des 2 second)
des))
(etypecase x
(single-float
(let ((des (allocate-unboxed-object *dynamic*
- sb!vm:word-bits
+ sb!vm:n-word-bits
(1- sb!vm:single-float-size)
sb!vm:single-float-widetag)))
(write-wordindexed des
des))
(double-float
(let ((des (allocate-unboxed-object *dynamic*
- sb!vm:word-bits
+ sb!vm:n-word-bits
(1- sb!vm:double-float-size)
sb!vm:double-float-widetag))
(high-bits (make-random-descriptor (double-float-high-bits x)))
#!+(and long-float x86)
(long-float
(let ((des (allocate-unboxed-object *dynamic*
- sb!vm:word-bits
+ sb!vm:n-word-bits
(1- sb!vm:long-float-size)
sb!vm:long-float-widetag))
(exp-bits (make-random-descriptor (long-float-exp-bits x)))
(defun complex-single-float-to-core (num)
(declare (type (complex single-float) num))
- (let ((des (allocate-unboxed-object *dynamic* sb!vm:word-bits
+ (let ((des (allocate-unboxed-object *dynamic* sb!vm:n-word-bits
(1- sb!vm:complex-single-float-size)
sb!vm:complex-single-float-widetag)))
(write-wordindexed des sb!vm:complex-single-float-real-slot
(defun complex-double-float-to-core (num)
(declare (type (complex double-float) num))
- (let ((des (allocate-unboxed-object *dynamic* sb!vm:word-bits
+ (let ((des (allocate-unboxed-object *dynamic* sb!vm:n-word-bits
(1- sb!vm:complex-double-float-size)
sb!vm:complex-double-float-widetag)))
(let* ((real (realpart num))
(write-wordindexed des (1+ sb!vm:complex-double-float-imag-slot) low-bits))))
des))
+;;; Copy the given number to the core.
(defun number-to-core (number)
- #!+sb-doc
- "Copy the given number to the core, or flame out if we can't deal with it."
(typecase number
(integer (if (< (integer-length number) 30)
(make-fixnum-descriptor number)
(float (float-to-core number))
(t (error "~S isn't a cold-loadable number at all!" number))))
-(declaim (ftype (function (sb!vm:word) descriptor) sap-to-core))
-(defun sapint-to-core (sapint)
+(declaim (ftype (function (sb!vm:word) descriptor) sap-int-to-core))
+(defun sap-int-to-core (sap-int)
(let ((des (allocate-unboxed-object *dynamic*
- sb!vm:word-bits
+ sb!vm:n-word-bits
(1- sb!vm:sap-size)
sb!vm:sap-widetag)))
(write-wordindexed des
sb!vm:sap-pointer-slot
- (make-random-descriptor sapint))
+ (make-random-descriptor sap-int))
des))
;;; Allocate a cons cell in GSPACE and fill it in with CAR and CDR.
(write-wordindexed dest 1 cdr)
dest))
-;;; Make a simple-vector that holds the specified OBJECTS, and return its
-;;; descriptor.
+;;; Make a simple-vector on the target that holds the specified
+;;; OBJECTS, and return its descriptor.
(defun vector-in-core (&rest objects)
(let* ((size (length objects))
- (result (allocate-vector-object *dynamic* sb!vm:word-bits size
+ (result (allocate-vector-object *dynamic* sb!vm:n-word-bits size
sb!vm:simple-vector-widetag)))
(dotimes (index size)
(write-wordindexed result (+ index sb!vm:vector-data-offset)
(declare (simple-string name))
(let ((symbol (allocate-unboxed-object (or *cold-symbol-allocation-gspace*
*dynamic*)
- sb!vm:word-bits
+ sb!vm:n-word-bits
(1- sb!vm:symbol-size)
sb!vm:symbol-header-widetag)))
(write-wordindexed symbol sb!vm:symbol-value-slot *unbound-marker*)
(write-wordindexed symbol
sb!vm:symbol-hash-slot
(make-fixnum-descriptor
- (1+ (random sb!vm:*target-most-positive-fixnum*))))
+ (1+ (random sb!xc:most-positive-fixnum))))
(write-wordindexed symbol sb!vm:symbol-plist-slot *nil-descriptor*)
(write-wordindexed symbol sb!vm:symbol-name-slot
(string-to-core name *dynamic*))
(defvar *cold-package-symbols*)
(declaim (type list *cold-package-symbols*))
-;;; a map from descriptors to symbols, so that we can back up. The key is the
-;;; address in the target core.
+;;; a map from descriptors to symbols, so that we can back up. The key
+;;; is the address in the target core.
(defvar *cold-symbols*)
(declaim (type hash-table *cold-symbols*))
+;;; sanity check for a symbol we're about to create on the target
+;;;
+;;; Make sure that the symbol has an appropriate package. In
+;;; particular, catch the so-easy-to-make error of typing something
+;;; like SB-KERNEL:%BYTE-BLT in cold sources when what you really
+;;; need is SB!KERNEL:%BYTE-BLT.
+(defun package-ok-for-target-symbol-p (package)
+ (let ((package-name (package-name package)))
+ (or
+ ;; Cold interning things in these standard packages is OK. (Cold
+ ;; interning things in the other standard package, CL-USER, isn't
+ ;; OK. We just use CL-USER to expose symbols whose homes are in
+ ;; other packages. Thus, trying to cold intern a symbol whose
+ ;; home package is CL-USER probably means that a coding error has
+ ;; been made somewhere.)
+ (find package-name '("COMMON-LISP" "KEYWORD") :test #'string=)
+ ;; Cold interning something in one of our target-code packages,
+ ;; which are ever-so-rigorously-and-elegantly distinguished by
+ ;; this prefix on their names, is OK too.
+ (string= package-name "SB!" :end1 3 :end2 3)
+ ;; This one is OK too, since it ends up being COMMON-LISP on the
+ ;; target.
+ (string= package-name "SB-XC")
+ ;; Anything else looks bad. (maybe COMMON-LISP-USER? maybe an extension
+ ;; package in the xc host? something we can't think of
+ ;; a valid reason to cold intern, anyway...)
+ )))
+
+;;; like SYMBOL-PACKAGE, but safe for symbols which end up on the target
+;;;
+;;; Most host symbols we dump onto the target are created by SBCL
+;;; itself, so that as long as we avoid gratuitously
+;;; cross-compilation-unfriendly hacks, it just happens that their
+;;; SYMBOL-PACKAGE in the host system corresponds to their
+;;; SYMBOL-PACKAGE in the target system. However, that's not the case
+;;; in the COMMON-LISP package, where we don't get to create the
+;;; symbols but instead have to use the ones that the xc host created.
+;;; In particular, while ANSI specifies which symbols are exported
+;;; from COMMON-LISP, it doesn't specify that their home packages are
+;;; COMMON-LISP, so the xc host can keep them in random packages which
+;;; don't exist on the target (e.g. CLISP keeping some CL-exported
+;;; symbols in the CLOS package).
+(defun symbol-package-for-target-symbol (symbol)
+ ;; We want to catch weird symbols like CLISP's
+ ;; CL:FIND-METHOD=CLOS::FIND-METHOD, but we don't want to get
+ ;; sidetracked by ordinary symbols like :CHARACTER which happen to
+ ;; have the same SYMBOL-NAME as exports from COMMON-LISP.
+ (multiple-value-bind (cl-symbol cl-status)
+ (find-symbol (symbol-name symbol) *cl-package*)
+ (if (and (eq symbol cl-symbol)
+ (eq cl-status :external))
+ ;; special case, to work around possible xc host weirdness
+ ;; in COMMON-LISP package
+ *cl-package*
+ ;; ordinary case
+ (let ((result (symbol-package symbol)))
+ (aver (package-ok-for-target-symbol-p result))
+ result))))
+
;;; Return a handle on an interned symbol. If necessary allocate the
;;; symbol and record which package the symbol was referenced in. When
;;; we allocate the symbol, make sure we record a reference to the
;;; symbol in the home package so that the package gets set.
-(defun cold-intern (symbol &optional (package (symbol-package symbol)))
+(defun cold-intern (symbol
+ &optional
+ (package (symbol-package-for-target-symbol symbol)))
+
+ (aver (package-ok-for-target-symbol-p package))
;; Anything on the cross-compilation host which refers to the target
- ;; machinery through the host SB-XC package can be translated to
+ ;; machinery through the host SB-XC package should be translated to
;; something on the target which refers to the same machinery
;; through the target COMMON-LISP package.
(let ((p (find-package "SB-XC")))
;; in COLD-INTERN-INFO.
;; (CAR COLD-INTERN-INFO) = descriptor of symbol
;; (CDR COLD-INTERN-INFO) = list of packages, other than symbol's
- ;; own package, referring to symbol
+ ;; own package, referring to symbol
;; (*COLD-PACKAGE-SYMBOLS* and *COLD-SYMBOLS* store basically the
;; same information, but with the mapping running the opposite way.)
(cold-intern-info (get symbol 'cold-intern-info)))
(unless cold-intern-info
- (cond ((eq (symbol-package symbol) package)
+ (cond ((eq (symbol-package-for-target-symbol symbol) package)
(let ((handle (allocate-symbol (symbol-name symbol))))
(setf (gethash (descriptor-bits handle) *cold-symbols*) symbol)
(when (eq package *keyword-package*)
(defun make-nil-descriptor ()
(let* ((des (allocate-unboxed-object
*static*
- sb!vm:word-bits
+ sb!vm:n-word-bits
sb!vm:symbol-size
0))
(result (make-descriptor (descriptor-high des)
(+ (descriptor-low des)
- (* 2 sb!vm:word-bytes)
+ (* 2 sb!vm:n-word-bytes)
(- sb!vm:list-pointer-lowtag
sb!vm:other-pointer-lowtag)))))
(write-wordindexed des
(descriptor-low *nil-descriptor*))))
(unless (= offset-wanted offset-found)
;; FIXME: should be fatal
- (warn "Offset from ~S to ~S is ~D, not ~D"
+ (warn "Offset from ~S to ~S is ~W, not ~W"
symbol
nil
offset-found
;;; intern it.
(defun finish-symbols ()
- ;; FIXME: Why use SETQ (setting symbol value) instead of just using
- ;; the function values for these things?? I.e. why do we need this
- ;; section at all? Is it because all the FDEFINITION stuff gets in
- ;; the way of reading function values and is too hairy to rely on at
- ;; cold boot? FIXME: Most of these are in *STATIC-SYMBOLS* in
- ;; parms.lisp, but %HANDLE-FUN-END-BREAKPOINT is not. Why?
- ;; Explain.
+ ;; I think the point of setting these functions into SYMBOL-VALUEs
+ ;; here, instead of using SYMBOL-FUNCTION, is that in CMU CL
+ ;; SYMBOL-FUNCTION reduces to FDEFINITION, which is a pretty
+ ;; hairy operation (involving globaldb.lisp etc.) which we don't
+ ;; want to invoke early in cold init. -- WHN 2001-12-05
+ ;;
+ ;; FIXME: So OK, that's a reasonable reason to do something weird like
+ ;; this, but this is still a weird thing to do, and we should change
+ ;; the names to highlight that something weird is going on. Perhaps
+ ;; *MAYBE-GC-FUN*, *INTERNAL-ERROR-FUN*, *HANDLE-BREAKPOINT-FUN*,
+ ;; and *HANDLE-FUN-END-BREAKPOINT-FUN*...
(macrolet ((frob (symbol)
`(cold-set ',symbol
(cold-fdefinition-object (cold-intern ',symbol)))))
(frob maybe-gc)
(frob internal-error)
+ (frob sb!kernel::control-stack-exhausted-error)
(frob sb!di::handle-breakpoint)
(frob sb!di::handle-fun-end-breakpoint))
(cold-set '*current-catch-block* (make-fixnum-descriptor 0))
(cold-set '*current-unwind-protect-block* (make-fixnum-descriptor 0))
- (cold-set '*eval-stack-top* (make-fixnum-descriptor 0))
(cold-set '*free-interrupt-context-index* (make-fixnum-descriptor 0))
(imported-internal *nil-descriptor*)
(imported-external *nil-descriptor*)
(shadowing *nil-descriptor*))
+ (declare (type package cold-package)) ; i.e. not a target descriptor
(/show "dumping" cold-package symbols)
;; FIXME: Add assertions here to make sure that inappropriate stuff
(dolist (symbol symbols)
(let ((handle (car (get symbol 'cold-intern-info)))
- (imported-p (not (eq (symbol-package symbol) cold-package))))
+ (imported-p (not (eq (symbol-package-for-target-symbol symbol)
+ cold-package))))
(multiple-value-bind (found where)
(find-symbol (symbol-name symbol) cold-package)
(unless (and where (eq found symbol))
(progn
(cold-set 'sb!vm::*fp-constant-0d0* (number-to-core 0d0))
(cold-set 'sb!vm::*fp-constant-1d0* (number-to-core 1d0))
- (cold-set 'sb!vm::*fp-constant-0s0* (number-to-core 0s0))
- (cold-set 'sb!vm::*fp-constant-1s0* (number-to-core 1s0))
+ (cold-set 'sb!vm::*fp-constant-0f0* (number-to-core 0f0))
+ (cold-set 'sb!vm::*fp-constant-1f0* (number-to-core 1f0))
#!+long-float
(progn
(cold-set 'sb!vm::*fp-constant-0l0* (number-to-core 0L0))
(warm-symbol cadr-des))))
(#.sb!vm:other-pointer-lowtag
(warm-symbol des)))))
- (unless (legal-function-name-p result)
- (error "not a legal function name: ~S" result))
+ (legal-fun-name-or-type-error result)
result))
(defun cold-fdefinition-object (cold-name &optional leave-fn-raw)
sb!vm:fdefn-raw-addr-slot
(make-random-descriptor
(cold-foreign-symbol-address-as-integer
- "undefined_tramp"))))
+ (sb!vm:extern-alien-name "undefined_tramp")))))
fdefn))))
;;; Handle the at-cold-init-time, fset-for-static-linkage operation
sb!vm:word-shift))))
(#.sb!vm:closure-header-widetag
(make-random-descriptor
- (cold-foreign-symbol-address-as-integer "closure_tramp")))))
+ (cold-foreign-symbol-address-as-integer
+ (sb!vm:extern-alien-name "closure_tramp"))))))
fdefn))
(defun initialize-static-fns ()
(let ((*cold-fdefn-gspace* *static*))
- (dolist (sym sb!vm:*static-functions*)
+ (dolist (sym sb!vm:*static-funs*)
(let* ((fdefn (cold-fdefinition-object (cold-intern sym)))
(offset (- (+ (- (descriptor-low fdefn)
sb!vm:other-pointer-lowtag)
- (* sb!vm:fdefn-raw-addr-slot sb!vm:word-bytes))
+ (* sb!vm:fdefn-raw-addr-slot sb!vm:n-word-bytes))
(descriptor-low *nil-descriptor*)))
- (desired (sb!vm:static-function-offset sym)))
+ (desired (sb!vm:static-fun-offset sym)))
(unless (= offset desired)
;; FIXME: should be fatal
- (warn "Offset from FDEFN ~S to ~S is ~D, not ~D."
+ (warn "Offset from FDEFN ~S to ~S is ~W, not ~W."
sym nil offset desired))))))
(defun list-all-fdefn-objects ()
(let ((result *nil-descriptor*))
- (maphash #'(lambda (key value)
- (declare (ignore key))
- (cold-push value result))
+ (maphash (lambda (key value)
+ (declare (ignore key))
+ (cold-push value result))
*cold-fdefn-objects*)
result))
\f
(defun note-load-time-code-fixup (code-object offset value kind)
;; If CODE-OBJECT might be moved
(when (= (gspace-identifier (descriptor-intuit-gspace code-object))
- dynamic-space-id)
+ dynamic-core-space-id)
;; FIXME: pushed thing should be a structure, not just a list
(push (list code-object offset value kind) *load-time-code-fixups*))
(values))
(:alpha
(ecase kind
(:jmp-hint
- (assert (zerop (ldb (byte 2 0) value)))
- #+nil ;; was commented out in cmucl source too. Don't know what
- ;; it does -dan 2001.05.03
- (setf (sap-ref-16 sap 0)
- (logior (sap-ref-16 sap 0) (ldb (byte 14 0) (ash value -2)))))
+ (assert (zerop (ldb (byte 2 0) value))))
(:bits-63-48
(let* ((value (if (logbitp 15 value) (+ value (ash 1 16)) value))
(value (if (logbitp 31 value) (+ value (ash 1 32)) value))
(value (if (logbitp 47 value) (+ value (ash 1 48)) value)))
- (setf (byte-vector-ref-8 gspace-bytes gspace-byte-offset)
+ (setf (bvref-8 gspace-bytes gspace-byte-offset)
(ldb (byte 8 48) value)
- (byte-vector-ref-8 gspace-bytes (1+ gspace-byte-offset))
+ (bvref-8 gspace-bytes (1+ gspace-byte-offset))
(ldb (byte 8 56) value))))
(:bits-47-32
(let* ((value (if (logbitp 15 value) (+ value (ash 1 16)) value))
(value (if (logbitp 31 value) (+ value (ash 1 32)) value)))
- (setf (byte-vector-ref-8 gspace-bytes gspace-byte-offset)
+ (setf (bvref-8 gspace-bytes gspace-byte-offset)
(ldb (byte 8 32) value)
- (byte-vector-ref-8 gspace-bytes (1+ gspace-byte-offset))
+ (bvref-8 gspace-bytes (1+ gspace-byte-offset))
(ldb (byte 8 40) value))))
(:ldah
(let ((value (if (logbitp 15 value) (+ value (ash 1 16)) value)))
- (setf (byte-vector-ref-8 gspace-bytes gspace-byte-offset)
+ (setf (bvref-8 gspace-bytes gspace-byte-offset)
(ldb (byte 8 16) value)
- (byte-vector-ref-8 gspace-bytes (1+ gspace-byte-offset))
+ (bvref-8 gspace-bytes (1+ gspace-byte-offset))
(ldb (byte 8 24) value))))
(:lda
- (setf (byte-vector-ref-8 gspace-bytes gspace-byte-offset)
+ (setf (bvref-8 gspace-bytes gspace-byte-offset)
(ldb (byte 8 0) value)
- (byte-vector-ref-8 gspace-bytes (1+ gspace-byte-offset))
+ (bvref-8 gspace-bytes (1+ gspace-byte-offset))
(ldb (byte 8 8) value)))))
+ (:ppc
+ (ecase kind
+ (:ba
+ (setf (bvref-32 gspace-bytes gspace-byte-offset)
+ (dpb (ash value -2) (byte 24 2)
+ (bvref-32 gspace-bytes gspace-byte-offset))))
+ (:ha
+ (let* ((h (ldb (byte 16 16) value))
+ (l (ldb (byte 16 0) value)))
+ (setf (bvref-16 gspace-bytes (+ gspace-byte-offset 2))
+ (if (logbitp 15 l) (ldb (byte 16 0) (1+ h)) h))))
+ (:l
+ (setf (bvref-16 gspace-bytes (+ gspace-byte-offset 2))
+ (ldb (byte 16 0) value)))))
+ (:sparc
+ (ecase kind
+ (:call
+ (error "can't deal with call fixups yet"))
+ (:sethi
+ (setf (bvref-32 gspace-bytes gspace-byte-offset)
+ (dpb (ldb (byte 22 10) value)
+ (byte 22 0)
+ (bvref-32 gspace-bytes gspace-byte-offset))))
+ (:add
+ (setf (bvref-32 gspace-bytes gspace-byte-offset)
+ (dpb (ldb (byte 10 0) value)
+ (byte 10 0)
+ (bvref-32 gspace-bytes gspace-byte-offset))))))
(:x86
- (let* ((un-fixed-up (byte-vector-ref-32 gspace-bytes
+ (let* ((un-fixed-up (bvref-32 gspace-bytes
gspace-byte-offset))
(code-object-start-addr (logandc2 (descriptor-bits code-object)
sb!vm:lowtag-mask)))
(ecase kind
(:absolute
(let ((fixed-up (+ value un-fixed-up)))
- (setf (byte-vector-ref-32 gspace-bytes gspace-byte-offset)
+ (setf (bvref-32 gspace-bytes gspace-byte-offset)
fixed-up)
;; comment from CMU CL sources:
;;
(let ((fixed-up (- (+ value un-fixed-up)
gspace-byte-address
gspace-byte-offset
- sb!vm:word-bytes))) ; length of CALL argument
- (setf (byte-vector-ref-32 gspace-bytes gspace-byte-offset)
+ sb!vm:n-word-bytes))) ; length of CALL argument
+ (setf (bvref-32 gspace-bytes gspace-byte-offset)
fixed-up)
;; Note relative fixups that point outside the code
;; object, which is to say all relative fixups, since
;;;; general machinery for cold-loading FASL files
;;; FOP functions for cold loading
-(defvar *cold-fop-functions*
- ;; We start out with a copy of the ordinary *FOP-FUNCTIONS*. The
- ;; ones which aren't appropriate for cold load will be destructively
+(defvar *cold-fop-funs*
+ ;; We start out with a copy of the ordinary *FOP-FUNS*. The ones
+ ;; which aren't appropriate for cold load will be destructively
;; modified.
- (copy-seq *fop-functions*))
+ (copy-seq *fop-funs*))
-(defvar *normal-fop-functions*)
+(defvar *normal-fop-funs*)
;;; Cause a fop to have a special definition for cold load.
;;;
;;; This is similar to DEFINE-FOP, but unlike DEFINE-FOP, this version
;;; (1) looks up the code for this name (created by a previous
;; DEFINE-FOP) instead of creating a code, and
-;;; (2) stores its definition in the *COLD-FOP-FUNCTIONS* vector,
-;;; instead of storing in the *FOP-FUNCTIONS* vector.
-(defmacro define-cold-fop ((name &optional (pushp t)) &rest forms)
- (aver (member pushp '(nil t :nope)))
+;;; (2) stores its definition in the *COLD-FOP-FUNS* vector,
+;;; instead of storing in the *FOP-FUNS* vector.
+(defmacro define-cold-fop ((name &key (pushp t) (stackp t)) &rest forms)
+ (aver (member pushp '(nil t)))
+ (aver (member stackp '(nil t)))
(let ((code (get name 'fop-code))
(fname (symbolicate "COLD-" name)))
(unless code
(error "~S is not a defined FOP." name))
`(progn
(defun ,fname ()
- ,@(if (eq pushp :nope)
- forms
- `((with-fop-stack ,pushp ,@forms))))
- (setf (svref *cold-fop-functions* ,code) #',fname))))
-
-(defmacro clone-cold-fop ((name &optional (pushp t)) (small-name) &rest forms)
- (aver (member pushp '(nil t :nope)))
+ ,@(if stackp
+ `((with-fop-stack ,pushp ,@forms))
+ forms))
+ (setf (svref *cold-fop-funs* ,code) #',fname))))
+
+(defmacro clone-cold-fop ((name &key (pushp t) (stackp t)) (small-name) &rest forms)
+ (aver (member pushp '(nil t)))
+ (aver (member stackp '(nil t)))
`(progn
(macrolet ((clone-arg () '(read-arg 4)))
- (define-cold-fop (,name ,pushp) ,@forms))
+ (define-cold-fop (,name :pushp ,pushp :stackp ,stackp) ,@forms))
(macrolet ((clone-arg () '(read-arg 1)))
- (define-cold-fop (,small-name ,pushp) ,@forms))))
+ (define-cold-fop (,small-name :pushp ,pushp :stackp ,stackp) ,@forms))))
;;; Cause a fop to be undefined in cold load.
(defmacro not-cold-fop (name)
(defun cold-load (filename)
#!+sb-doc
"Load the file named by FILENAME into the cold load image being built."
- (let* ((*normal-fop-functions* *fop-functions*)
- (*fop-functions* *cold-fop-functions*)
+ (let* ((*normal-fop-funs* *fop-funs*)
+ (*fop-funs* *cold-fop-funs*)
(*cold-load-filename* (etypecase filename
(string filename)
(pathname (namestring filename)))))
(define-cold-fop (fop-empty-list) *nil-descriptor*)
(define-cold-fop (fop-truth) (cold-intern t))
-(define-cold-fop (fop-normal-load :nope)
- (setq *fop-functions* *normal-fop-functions*))
+(define-cold-fop (fop-normal-load :stackp nil)
+ (setq *fop-funs* *normal-fop-funs*))
-(define-fop (fop-maybe-cold-load 82 :nope)
+(define-fop (fop-maybe-cold-load 82 :stackp nil)
(when *cold-load-filename*
- (setq *fop-functions* *cold-fop-functions*)))
+ (setq *fop-funs* *cold-fop-funs*)))
-(define-cold-fop (fop-maybe-cold-load :nope))
+(define-cold-fop (fop-maybe-cold-load :stackp nil))
(clone-cold-fop (fop-struct)
(fop-small-struct)
(fop-small-vector)
(let* ((size (clone-arg))
(result (allocate-vector-object *dynamic*
- sb!vm:word-bits
+ sb!vm:n-word-bits
size
sb!vm:simple-vector-widetag)))
(do ((index (1- size) (1- index)))
(8 sb!vm:simple-array-unsigned-byte-8-widetag)
(16 sb!vm:simple-array-unsigned-byte-16-widetag)
(32 sb!vm:simple-array-unsigned-byte-32-widetag)
- (t (error "losing element size: ~D" sizebits))))
+ (t (error "losing element size: ~W" sizebits))))
(result (allocate-vector-object *dynamic* sizebits len type))
(start (+ (descriptor-byte-offset result)
(ash sb!vm:vector-data-offset sb!vm:word-shift)))
(end (+ start
(ceiling (* len sizebits)
- sb!vm:byte-bits))))
- (read-sequence-or-die (descriptor-bytes result)
- *fasl-input-stream*
- :start start
- :end end)
+ sb!vm:n-byte-bits))))
+ (read-bigvec-as-sequence-or-die (descriptor-bytes result)
+ *fasl-input-stream*
+ :start start
+ :end end)
result))
(define-cold-fop (fop-single-float-vector)
(let* ((len (read-arg 4))
(result (allocate-vector-object
*dynamic*
- sb!vm:word-bits
+ sb!vm:n-word-bits
len
sb!vm:simple-array-single-float-widetag))
(start (+ (descriptor-byte-offset result)
(ash sb!vm:vector-data-offset sb!vm:word-shift)))
- (end (+ start (* len sb!vm:word-bytes))))
- (read-sequence-or-die (descriptor-bytes result)
- *fasl-input-stream*
- :start start
- :end end)
+ (end (+ start (* len sb!vm:n-word-bytes))))
+ (read-bigvec-as-sequence-or-die (descriptor-bytes result)
+ *fasl-input-stream*
+ :start start
+ :end end)
result))
(not-cold-fop fop-double-float-vector)
;;;; cold fops for loading numbers
(defmacro define-cold-number-fop (fop)
- `(define-cold-fop (,fop :nope)
+ `(define-cold-fop (,fop :stackp nil)
;; Invoke the ordinary warm version of this fop to push the
;; number.
(,fop)
(ecase +backend-fasl-file-implementation+
(:x86 ; (which has 80-bit long-float format)
(prepare-for-fast-read-byte *fasl-input-stream*
- (let* ((des (allocate-unboxed-object *dynamic* sb!vm:word-bits
+ (let* ((des (allocate-unboxed-object *dynamic* sb!vm:n-word-bits
(1- sb!vm:long-float-size)
sb!vm:long-float-widetag))
(low-bits (make-random-descriptor (fast-read-u-integer 4)))
#+nil
(#.sb!c:sparc-fasl-file-implementation ; 128 bit long-float format
(prepare-for-fast-read-byte *fasl-input-stream*
- (let* ((des (allocate-unboxed-object *dynamic* sb!vm:word-bits
+ (let* ((des (allocate-unboxed-object *dynamic* sb!vm:n-word-bits
(1- sb!vm:long-float-size)
sb!vm:long-float-widetag))
(low-bits (make-random-descriptor (fast-read-u-integer 4)))
(ecase +backend-fasl-file-implementation+
(:x86 ; (which has 80-bit long-float format)
(prepare-for-fast-read-byte *fasl-input-stream*
- (let* ((des (allocate-unboxed-object *dynamic* sb!vm:word-bits
+ (let* ((des (allocate-unboxed-object *dynamic* sb!vm:n-word-bits
(1- sb!vm:complex-long-float-size)
sb!vm:complex-long-float-widetag))
(real-low-bits (make-random-descriptor (fast-read-u-integer 4)))
#+nil
(#.sb!c:sparc-fasl-file-implementation ; 128 bit long-float format
(prepare-for-fast-read-byte *fasl-input-stream*
- (let* ((des (allocate-unboxed-object *dynamic* sb!vm:word-bits
+ (let* ((des (allocate-unboxed-object *dynamic* sb!vm:n-word-bits
(1- sb!vm:complex-long-float-size)
sb!vm:complex-long-float-widetag))
(real-low-bits (make-random-descriptor (fast-read-u-integer 4)))
(defun finalize-load-time-value-noise ()
(cold-set (cold-intern '*!load-time-values*)
(allocate-vector-object *dynamic*
- sb!vm:word-bits
+ sb!vm:n-word-bits
*load-time-value-counter*
sb!vm:simple-vector-widetag)))
-(define-cold-fop (fop-funcall-for-effect nil)
+(define-cold-fop (fop-funcall-for-effect :pushp nil)
(if (= (read-arg 1) 0)
(cold-push (pop-stack)
*current-reversed-cold-toplevels*)
\f
;;;; cold fops for fixing up circularities
-(define-cold-fop (fop-rplaca nil)
+(define-cold-fop (fop-rplaca :pushp nil)
(let ((obj (svref *current-fop-table* (read-arg 4)))
(idx (read-arg 4)))
(write-memory (cold-nthcdr idx obj) (pop-stack))))
-(define-cold-fop (fop-rplacd nil)
+(define-cold-fop (fop-rplacd :pushp nil)
(let ((obj (svref *current-fop-table* (read-arg 4)))
(idx (read-arg 4)))
(write-wordindexed (cold-nthcdr idx obj) 1 (pop-stack))))
-(define-cold-fop (fop-svset nil)
+(define-cold-fop (fop-svset :pushp nil)
(let ((obj (svref *current-fop-table* (read-arg 4)))
(idx (read-arg 4)))
(write-wordindexed obj
(#.sb!vm:other-pointer-lowtag 2)))
(pop-stack))))
-(define-cold-fop (fop-structset nil)
+(define-cold-fop (fop-structset :pushp nil)
(let ((obj (svref *current-fop-table* (read-arg 4)))
(idx (read-arg 4)))
(write-wordindexed obj (1+ idx) (pop-stack))))
-(define-cold-fop (fop-nthcdr t)
+;;; In the original CMUCL code, this actually explicitly declared PUSHP
+;;; to be T, even though that's what it defaults to in DEFINE-COLD-FOP.
+(define-cold-fop (fop-nthcdr)
(cold-nthcdr (read-arg 4) (pop-stack)))
(defun cold-nthcdr (index obj)
;; (SETF CAR).
(make-hash-table :test 'equal))
-(define-cold-fop (fop-fset nil)
+(define-cold-fop (fop-fset :pushp nil)
(let* ((fn (pop-stack))
(cold-name (pop-stack))
(warm-name (warm-fun-name cold-name)))
(let* ((start (+ (descriptor-byte-offset des)
(ash header-n-words sb!vm:word-shift)))
(end (+ start code-size)))
- (read-sequence-or-die (descriptor-bytes des)
- *fasl-input-stream*
- :start start
- :end end)
+ (read-bigvec-as-sequence-or-die (descriptor-bytes des)
+ *fasl-input-stream*
+ :start start
+ :end end)
#!+sb-show
(when *show-pre-fixup-code-p*
(format *trace-output*
- "~&/raw code from code-fop ~D ~D:~%"
+ "~&/raw code from code-fop ~W ~W:~%"
nconst
code-size)
- (do ((i start (+ i sb!vm:word-bytes)))
+ (do ((i start (+ i sb!vm:n-word-bytes)))
((>= i end))
(format *trace-output*
"/#X~8,'0x: #X~8,'0x~%"
(+ i (gspace-byte-address (descriptor-gspace des)))
- (byte-vector-ref-32 (descriptor-bytes des) i)))))
+ (bvref-32 (descriptor-bytes des) i)))))
des)))
(define-cold-code-fop fop-code (read-arg 4) (read-arg 4))
(define-cold-code-fop fop-small-code (read-arg 1) (read-arg 2))
-(clone-cold-fop (fop-alter-code nil)
+(clone-cold-fop (fop-alter-code :pushp nil)
(fop-byte-alter-code)
(let ((slot (clone-arg))
(value (pop-stack))
(code (pop-stack)))
(write-wordindexed code slot value)))
-(define-cold-fop (fop-function-entry)
+(define-cold-fop (fop-fun-entry)
(let* ((type (pop-stack))
(arglist (pop-stack))
(name (pop-stack))
sb!vm:fun-pointer-lowtag))
(next (read-wordindexed code-object sb!vm:code-entry-points-slot)))
(unless (zerop (logand offset sb!vm:lowtag-mask))
- ;; FIXME: This should probably become a fatal error.
- (warn "unaligned function entry: ~S at #X~X" name offset))
+ (error "unaligned function entry: ~S at #X~X" name offset))
(write-wordindexed code-object sb!vm:code-entry-points-slot fn)
(write-memory fn
(make-other-immediate-descriptor
;; code instead of a pointer back to the object
;; itself.) Ask on the mailing list whether
;; this is documented somewhere, and if not,
- ;; try to reverse engineer some documentation
- ;; before release.
+ ;; try to reverse engineer some documentation.
#!-x86
;; a pointer back to the function object, as
;; described in CMU CL
(let* ((start (+ (descriptor-byte-offset des)
(ash header-n-words sb!vm:word-shift)))
(end (+ start length)))
- (read-sequence-or-die (descriptor-bytes des)
- *fasl-input-stream*
- :start start
- :end end))
+ (read-bigvec-as-sequence-or-die (descriptor-bytes des)
+ *fasl-input-stream*
+ :start start
+ :end end))
des))
(define-cold-fop (fop-assembler-routine)
(sb!xc:lisp-implementation-version))
(format t "#define CORE_MAGIC 0x~X~%" core-magic)
(terpri)
- ;; FIXME: Other things from core.h should be defined here too:
- ;; #define CORE_END 3840
- ;; #define CORE_NDIRECTORY 3861
- ;; #define CORE_VALIDATE 3845
- ;; #define CORE_VERSION 3860
- ;; #define CORE_MACHINE_STATE 3862
- ;; (Except that some of them are obsolete and should be deleted instead.)
- ;; also
- ;; #define DYNAMIC_SPACE_ID (1)
- ;; #define STATIC_SPACE_ID (2)
- ;; #define READ_ONLY_SPACE_ID (3)
-
- ;; writing entire families of named constants from SB!VM
+
+ ;; writing entire families of named constants
(let ((constants nil))
- (do-external-symbols (symbol (find-package "SB!VM"))
- (when (constantp symbol)
- (let ((name (symbol-name symbol)))
- (labels (;; shared machinery
- (record (string priority)
- (push (list string
- priority
- (symbol-value symbol)
- (documentation symbol 'variable))
- constants))
- ;; machinery for old-style CMU CL Lisp-to-C
- ;; arbitrary renaming, being phased out in favor of
- ;; the newer systematic RECORD-WITH-TRANSLATED-NAME
- ;; renaming
- (record-with-munged-name (prefix string priority)
- (record (concatenate
- 'simple-string
- prefix
- (delete #\- (string-capitalize string)))
- priority))
- (maybe-record-with-munged-name (tail prefix priority)
- (when (tailwise-equal name tail)
- (record-with-munged-name prefix
- (subseq name 0
- (- (length name)
- (length tail)))
- priority)))
- ;; machinery for new-style SBCL Lisp-to-C naming
- (record-with-translated-name (priority)
- (record (substitute #\_ #\- name)
- priority))
- (maybe-record-with-translated-name (suffixes priority)
- (when (some (lambda (suffix)
- (tailwise-equal name suffix))
- suffixes)
- (record-with-translated-name priority))))
-
- (maybe-record-with-translated-name '("-LOWTAG") 0)
- (maybe-record-with-translated-name '("-WIDETAG") 1)
- (maybe-record-with-munged-name "-FLAG" "flag_" 2)
- (maybe-record-with-munged-name "-TRAP" "trap_" 3)
- (maybe-record-with-munged-name "-SUBTYPE" "subtype_" 4)
- (maybe-record-with-munged-name "-SC-NUMBER" "sc_" 5)
- (maybe-record-with-translated-name '("-START" "-END") 6)))))
+ (dolist (package-name '(;; Even in CMU CL, constants from VM
+ ;; were automatically propagated
+ ;; into the runtime.
+ "SB!VM"
+ ;; In SBCL, we also propagate various
+ ;; magic numbers related to file format,
+ ;; which live here instead of SB!VM.
+ "SB!FASL"))
+ (do-external-symbols (symbol (find-package package-name))
+ (when (constantp symbol)
+ (let ((name (symbol-name symbol)))
+ (labels (;; shared machinery
+ (record (string priority)
+ (push (list string
+ priority
+ (symbol-value symbol)
+ (documentation symbol 'variable))
+ constants))
+ ;; machinery for old-style CMU CL Lisp-to-C
+ ;; arbitrary renaming, being phased out in favor of
+ ;; the newer systematic RECORD-WITH-TRANSLATED-NAME
+ ;; renaming
+ (record-with-munged-name (prefix string priority)
+ (record (concatenate
+ 'simple-string
+ prefix
+ (delete #\- (string-capitalize string)))
+ priority))
+ (maybe-record-with-munged-name (tail prefix priority)
+ (when (tailwise-equal name tail)
+ (record-with-munged-name prefix
+ (subseq name 0
+ (- (length name)
+ (length tail)))
+ priority)))
+ ;; machinery for new-style SBCL Lisp-to-C naming
+ (record-with-translated-name (priority)
+ (record (substitute #\_ #\- name)
+ priority))
+ (maybe-record-with-translated-name (suffixes priority)
+ (when (some (lambda (suffix)
+ (tailwise-equal name suffix))
+ suffixes)
+ (record-with-translated-name priority))))
+
+ (maybe-record-with-translated-name '("-LOWTAG") 0)
+ (maybe-record-with-translated-name '("-WIDETAG") 1)
+ (maybe-record-with-munged-name "-FLAG" "flag_" 2)
+ (maybe-record-with-munged-name "-TRAP" "trap_" 3)
+ (maybe-record-with-munged-name "-SUBTYPE" "subtype_" 4)
+ (maybe-record-with-munged-name "-SC-NUMBER" "sc_" 5)
+ (maybe-record-with-translated-name '("-START" "-END") 6)
+ (maybe-record-with-translated-name '("-CORE-ENTRY-TYPE-CODE") 7)
+ (maybe-record-with-translated-name '("-CORE-SPACE-ID") 8))))))
(setf constants
(sort constants
- #'(lambda (const1 const2)
- (if (= (second const1) (second const2))
+ (lambda (const1 const2)
+ (if (= (second const1) (second const2))
(< (third const1) (third const2))
(< (second const1) (second const2))))))
(let ((prev-priority (second (car constants))))
(format t " /* 0x~X */~@[ /* ~A */~]~%" value doc))))
(terpri))
- ;; writing codes/strings for internal errors
- (format t "#define ERRORS { \\~%")
- ;; FIXME: Is this just DOVECTOR?
+ ;; writing information about internal errors
(let ((internal-errors sb!c:*backend-internal-errors*))
(dotimes (i (length internal-errors))
- (format t " ~S, /*~D*/ \\~%" (cdr (aref internal-errors i)) i)))
- (format t " NULL \\~%}~%")
+ (let ((current-error (aref internal-errors i)))
+ ;; FIXME: this UNLESS should go away (see also FIXME in
+ ;; interr.lisp) -- APD, 2002-03-05
+ (unless (eq nil (car current-error))
+ (format t "#define ~A ~D~%"
+ (substitute #\_ #\- (symbol-name (car current-error)))
+ i)))))
(terpri)
+ ;; FIXME: The SPARC has a PSEUDO-ATOMIC-TRAP that differs between
+ ;; platforms. If we export this from the SB!VM package, it gets
+ ;; written out as #define trap_PseudoAtomic, which is confusing as
+ ;; the runtime treats trap_ as the prefix for illegal instruction
+ ;; type things. We therefore don't export it, but instead do
+ #!+sparc
+ (when (boundp 'sb!vm::pseudo-atomic-trap)
+ (format t "#define PSEUDO_ATOMIC_TRAP ~D /* 0x~:*~X */~%" sb!vm::pseudo-atomic-trap)
+ (terpri))
+ ;; possibly this is another candidate for a rename (to
+ ;; pseudo-atomic-trap-number or pseudo-atomic-magic-constant
+ ;; [possibly applicable to other platforms])
+
+ (dolist (symbol '(sb!vm::float-traps-byte sb!vm::float-exceptions-byte sb!vm::float-sticky-bits sb!vm::float-rounding-mode))
+ (format t "#define ~A_POSITION ~A /* ~:*0x~X */~%"
+ (substitute #\_ #\- (symbol-name symbol))
+ (sb!xc:byte-position (symbol-value symbol)))
+ (format t "#define ~A_MASK 0x~X /* ~:*~A */~%"
+ (substitute #\_ #\- (symbol-name symbol))
+ (sb!xc:mask-field (symbol-value symbol) -1)))
+
;; writing primitive object layouts
(let ((structs (sort (copy-list sb!vm:*primitive-objects*) #'string<
- :key #'(lambda (obj)
- (symbol-name
- (sb!vm:primitive-object-name obj))))))
+ :key (lambda (obj)
+ (symbol-name
+ (sb!vm:primitive-object-name obj))))))
(format t "#ifndef LANGUAGE_ASSEMBLY~2%")
(format t "#define LISPOBJ(x) ((lispobj)x)~2%")
(dolist (obj structs)
(format t
"struct ~A {~%"
- (nsubstitute #\_ #\-
+ (substitute #\_ #\-
(string-downcase (string (sb!vm:primitive-object-name obj)))))
- (when (sb!vm:primitive-object-header obj)
+ (when (sb!vm:primitive-object-widetag obj)
(format t " lispobj header;~%"))
(dolist (slot (sb!vm:primitive-object-slots obj))
(format t " ~A ~A~@[[1]~];~%"
(getf (sb!vm:slot-options slot) :c-type "lispobj")
- (nsubstitute #\_ #\-
- (string-downcase (string (sb!vm:slot-name slot))))
+ (substitute #\_ #\-
+ (string-downcase (string (sb!vm:slot-name slot))))
(sb!vm:slot-rest-p slot)))
(format t "};~2%"))
(format t "#else /* LANGUAGE_ASSEMBLY */~2%")
(format t "#define ~A_~A_OFFSET ~D~%"
(substitute #\_ #\- (string name))
(substitute #\_ #\- (string (sb!vm:slot-name slot)))
- (- (* (sb!vm:slot-offset slot) sb!vm:word-bytes) lowtag)))
+ (- (* (sb!vm:slot-offset slot) sb!vm:n-word-bytes) lowtag)))
(terpri))))
(format t "#endif /* LANGUAGE_ASSEMBLY */~2%"))
;; writing static symbol offsets
(dolist (symbol (cons nil sb!vm:*static-symbols*))
- ;; FIXME: It would be nice to use longer names NIL and (particularly) T
- ;; in #define statements.
+ ;; FIXME: It would be nice to use longer names than NIL and
+ ;; (particularly) T in #define statements.
(format t "#define ~A LISPOBJ(0x~X)~%"
- (nsubstitute #\_ #\-
- (remove-if #'(lambda (char)
- (member char '(#\% #\* #\. #\!)))
- (symbol-name symbol)))
+ (substitute #\_ #\-
+ (remove-if (lambda (char)
+ (member char '(#\% #\* #\. #\!)))
+ (symbol-name symbol)))
(if *static* ; if we ran GENESIS
;; We actually ran GENESIS, use the real value.
(descriptor-bits (cold-intern symbol))
;; We didn't run GENESIS, so guess at the address.
(+ sb!vm:static-space-start
- sb!vm:word-bytes
+ sb!vm:n-word-bytes
sb!vm:other-pointer-lowtag
(if symbol (sb!vm:static-symbol-offset symbol) 0)))))
(format t "#X~8,'0X: ~S~%" (cdr routine) (car routine)))
(let ((funs nil)
(undefs nil))
- (maphash #'(lambda (name fdefn)
- (let ((fun (read-wordindexed fdefn
- sb!vm:fdefn-fun-slot)))
- (if (= (descriptor-bits fun)
- (descriptor-bits *nil-descriptor*))
- (push name undefs)
- (let ((addr (read-wordindexed
- fdefn sb!vm:fdefn-raw-addr-slot)))
- (push (cons name (descriptor-bits addr))
- funs)))))
+ (maphash (lambda (name fdefn)
+ (let ((fun (read-wordindexed fdefn
+ sb!vm:fdefn-fun-slot)))
+ (if (= (descriptor-bits fun)
+ (descriptor-bits *nil-descriptor*))
+ (push name undefs)
+ (let ((addr (read-wordindexed
+ fdefn sb!vm:fdefn-raw-addr-slot)))
+ (push (cons name (descriptor-bits addr))
+ funs)))))
*cold-fdefn-objects*)
(format t "~%~|~%initially defined functions:~2%")
(setf funs (sort funs #'< :key #'cdr))
as is fairly common for structure accessors.)
initially undefined function references:~2%")
- (setf undefs (sort undefs #'string< :key #'function-name-block-name))
+ (setf undefs (sort undefs #'string< :key #'fun-name-block-name))
(dolist (name undefs)
- (format t "~S" name)
- ;; FIXME: This ACCESSOR-FOR stuff should go away when the
- ;; code has stabilized. (It's only here to help me
- ;; categorize the flood of undefined functions caused by
- ;; completely rewriting the bootstrap process. Hopefully any
- ;; future maintainers will mostly have small numbers of
- ;; undefined functions..)
- (let ((accessor-for (info :function :accessor-for name)))
- (when accessor-for
- (format t " (accessor for ~S)" accessor-for)))
- (format t "~%")))
+ (format t "~S~%" name)))
(format t "~%~|~%layout names:~2%")
(collect ((stuff))
- (maphash #'(lambda (name gorp)
- (declare (ignore name))
- (stuff (cons (descriptor-bits (car gorp))
- (cdr gorp))))
+ (maphash (lambda (name gorp)
+ (declare (ignore name))
+ (stuff (cons (descriptor-bits (car gorp))
+ (cdr gorp))))
*cold-layouts*)
(dolist (x (sort (stuff) #'< :key #'car))
(apply #'format t "~8,'0X: ~S[~D]~%~10T~S~%" x))))
(defvar *core-file*)
(defvar *data-page*)
-;;; KLUDGE: These numbers correspond to values in core.h. If they're
-;;; documented anywhere, I haven't found it. (I haven't tried very
-;;; hard yet.) -- WHN 19990826
-(defparameter version-entry-type-code 3860)
-(defparameter validate-entry-type-code 3845)
-(defparameter directory-entry-type-code 3841)
-(defparameter new-directory-entry-type-code 3861)
-(defparameter initial-function-entry-type-code 3863)
-(defparameter end-entry-type-code 3840)
-
-(declaim (ftype (function (sb!vm:word) sb!vm:word) write-long))
-(defun write-long (num) ; FIXME: WRITE-WORD would be a better name.
+(defconstant version-core-entry-type-code 3860)
+(defconstant new-directory-core-entry-type-code 3861)
+(defconstant initial-fun-core-entry-type-code 3863)
+(defconstant end-core-entry-type-code 3840)
+
+(declaim (ftype (function (sb!vm:word) sb!vm:word) write-word))
+(defun write-word (num)
(ecase sb!c:*backend-byte-order*
(:little-endian
(dotimes (i 4)
(defun output-gspace (gspace)
(force-output *core-file*)
(let* ((posn (file-position *core-file*))
- (bytes (* (gspace-free-word-index gspace) sb!vm:word-bytes))
+ (bytes (* (gspace-free-word-index gspace) sb!vm:n-word-bytes))
(pages (ceiling bytes sb!c:*backend-page-size*))
(total-bytes (* pages sb!c:*backend-page-size*)))
;; be zero-filled. This will always be true under Mach on machines
;; where the page size is equal. (RT is 4K, PMAX is 4K, Sun 3 is
;; 8K).
- (write-sequence (gspace-bytes gspace) *core-file* :end total-bytes)
+ (write-bigvec-as-sequence (gspace-bytes gspace)
+ *core-file*
+ :end total-bytes)
(force-output *core-file*)
(file-position *core-file* posn)
;; DATA PAGE
;; ADDRESS
;; PAGE COUNT
- (write-long (gspace-identifier gspace))
- (write-long (gspace-free-word-index gspace))
- (write-long *data-page*)
+ (write-word (gspace-identifier gspace))
+ (write-word (gspace-free-word-index gspace))
+ (write-word *data-page*)
(multiple-value-bind (floor rem)
(floor (gspace-byte-address gspace) sb!c:*backend-page-size*)
(aver (zerop rem))
- (write-long floor))
- (write-long pages)
+ (write-word floor))
+ (write-word pages)
(incf *data-page* pages)))
:if-exists :rename-and-delete)
;; Write the magic number.
- (write-long core-magic)
+ (write-word core-magic)
;; Write the Version entry.
- (write-long version-entry-type-code)
- (write-long 3)
- (write-long sbcl-core-version-integer)
+ (write-word version-core-entry-type-code)
+ (write-word 3)
+ (write-word sbcl-core-version-integer)
;; Write the New Directory entry header.
- (write-long new-directory-entry-type-code)
- (write-long 17) ; length = (5 words/space) * 3 spaces + 2 for header.
+ (write-word new-directory-core-entry-type-code)
+ (write-word 17) ; length = (5 words/space) * 3 spaces + 2 for header.
(output-gspace *read-only*)
(output-gspace *static*)
(output-gspace *dynamic*)
;; Write the initial function.
- (write-long initial-function-entry-type-code)
- (write-long 3)
+ (write-word initial-fun-core-entry-type-code)
+ (write-word 3)
(let* ((cold-name (cold-intern '!cold-init))
(cold-fdefn (cold-fdefinition-object cold-name))
- (initial-function (read-wordindexed cold-fdefn
- sb!vm:fdefn-fun-slot)))
+ (initial-fun (read-wordindexed cold-fdefn
+ sb!vm:fdefn-fun-slot)))
(format t
- "~&/(DESCRIPTOR-BITS INITIAL-FUNCTION)=#X~X~%"
- (descriptor-bits initial-function))
- (write-long (descriptor-bits initial-function)))
+ "~&/(DESCRIPTOR-BITS INITIAL-FUN)=#X~X~%"
+ (descriptor-bits initial-fun))
+ (write-word (descriptor-bits initial-fun)))
;; Write the End entry.
- (write-long end-entry-type-code)
- (write-long 2)))
+ (write-word end-core-entry-type-code)
+ (write-word 2)))
(format t "done]~%")
(force-output)
;;; the executable which will load the core.
;;; MAP-FILE-NAME gets (?) a map file. (dunno about this -- WHN 19990815)
;;;
-;;; other arguments:
-;;; BYTE-ORDER-SWAP-P controls whether GENESIS tries to swap bytes
-;;; in some places in the output. It's only appropriate when
-;;; cross-compiling from a machine with one byte order to a
-;;; machine with the opposite byte order, which is irrelevant in
-;;; current (19990816) SBCL, since only the X86 architecture is
-;;; supported. If you're trying to add support for more
-;;; architectures, see the comments on DEFVAR
-;;; *GENESIS-BYTE-ORDER-SWAP-P* for more information.
-;;;
;;; FIXME: GENESIS doesn't belong in SB!VM. Perhaps in %KERNEL for now,
;;; perhaps eventually in SB-LD or SB-BOOT.
(defun sb!vm:genesis (&key
symbol-table-file-name
core-file-name
map-file-name
- c-header-file-name
- byte-order-swap-p)
+ c-header-file-name)
(when (and core-file-name
(not symbol-table-file-name))
(let* ((*foreign-symbol-placeholder-value* (if core-file-name nil 0))
(*load-time-value-counter* 0)
- (*genesis-byte-order-swap-p* byte-order-swap-p)
(*cold-fdefn-objects* (make-hash-table :test 'equal))
(*cold-symbols* (make-hash-table :test 'equal))
(*cold-package-symbols* nil)
(*read-only* (make-gspace :read-only
- read-only-space-id
+ read-only-core-space-id
sb!vm:read-only-space-start))
(*static* (make-gspace :static
- static-space-id
+ static-core-space-id
sb!vm:static-space-start))
(*dynamic* (make-gspace :dynamic
- dynamic-space-id
- sb!vm:dynamic-space-start))
+ dynamic-core-space-id
+ #!+gencgc sb!vm:dynamic-space-start
+ #!-gencgc sb!vm:dynamic-0-space-start))
(*nil-descriptor* (make-nil-descriptor))
(*current-reversed-cold-toplevels* *nil-descriptor*)
(*unbound-marker* (make-other-immediate-descriptor