(in-package "USER") ;;; Rename the X86 package and backend so that new-backend does the ;;; right thing. (rename-package "SPARC" "OLD-SPARC") (setf (c:backend-name c:*native-backend*) "OLD-SPARC") ;;; Sparc to Sparc current cross compile. ;#+nil (c::new-backend "SPARC" '(:new-assembler :complex-fp-vops :sparc-v9 :hash-new :random-mt19937 :cmu18 :cmu18d :sparc :relative-package-names :linkage-table) '(:gencgc :x86 :x86-bootstrap :alpha :osf1 :mips :pentium :cgc :mp :i486 :long-float :new-random) ) #| (load "target:tools/setup" :if-source-newer :load-source) (comf "target:tools/setup" :load t) |# (setf *interactive* nil) (setf *gc-verbose* nil) ;;; Extern-alien-name for the new backend. (in-package "VM") (defun extern-alien-name (name) (declare (type simple-string name)) name) (export 'extern-alien-name) (export 'fixup-code-object) (export 'sanctify-for-execution) (in-package "USER") ;;; So compilation of make-fixup will work. (setf (get 'lisp::fop-foreign-data-fixup 'lisp::fop-code) 150) ;;; Compile the new backend. (pushnew :bootstrap *features*) (pushnew :building-cross-compiler *features*) (load "target:tools/comcom") (comf "target:code/foreign-linkage") ;;; Load the new backend. (setf (search-list "c:") '("target:compiler/")) (setf (search-list "vm:") '("c:sparc/" "c:generic/")) (setf (search-list "assem:") '("target:assembly/" "target:assembly/sparc/")) ;;; Note: may need to add extra files to load to loadbackend, perhaps ;;; float-tran and srctran; try to follow the order in comcom as this ;;; is often important. ;; Load the backend of the compiler. (in-package "C") (load "vm:vm-macs") (load "vm:parms") (load "vm:objdef") (load "vm:interr") (load "assem:support") (load "target:compiler/srctran") (load "vm:vm-typetran") (load "target:compiler/float-tran") (load "target:compiler/saptran") (load "vm:macros") (load "vm:utils") (load "vm:vm") (load "vm:insts") (load "vm:primtype") (load "vm:move") (load "vm:sap") (load "vm:system") (load "vm:char") (load "vm:float") (load "vm:memory") (load "vm:static-fn") (load "vm:arith") (load "vm:cell") (load "vm:subprim") (load "vm:debug") (load "vm:c-call") (load "vm:print") (load "vm:alloc") (load "vm:call") (load "vm:nlx") (load "vm:values") (load "vm:array") (load "vm:pred") (load "vm:type-vops") (load "assem:assem-rtns") (load "assem:array") (load "assem:arith") (load "assem:alloc") (load "c:pseudo-vops") (check-move-function-consistency) (load "target:code/foreign-linkage") (load "target:compiler/dump") (load "vm:new-genesis") ;;; OK, the cross compiler backend is loaded. (setf *features* (remove :building-cross-compiler *features*)) ;;; Info environment hacks. (macrolet ((frob (&rest syms) `(progn ,@(mapcar #'(lambda (sym) `(defconstant ,sym (symbol-value (find-symbol ,(symbol-name sym) :vm)))) syms)))) (frob OLD-SPARC:BYTE-BITS OLD-SPARC:WORD-BITS #+long-float OLD-SPARC:SIMPLE-ARRAY-LONG-FLOAT-TYPE OLD-SPARC:SIMPLE-ARRAY-DOUBLE-FLOAT-TYPE OLD-SPARC:SIMPLE-ARRAY-SINGLE-FLOAT-TYPE #+long-float OLD-SPARC:SIMPLE-ARRAY-COMPLEX-LONG-FLOAT-TYPE OLD-SPARC:SIMPLE-ARRAY-COMPLEX-DOUBLE-FLOAT-TYPE OLD-SPARC:SIMPLE-ARRAY-COMPLEX-SINGLE-FLOAT-TYPE OLD-SPARC:SIMPLE-ARRAY-UNSIGNED-BYTE-2-TYPE OLD-SPARC:SIMPLE-ARRAY-UNSIGNED-BYTE-4-TYPE OLD-SPARC:SIMPLE-ARRAY-UNSIGNED-BYTE-8-TYPE OLD-SPARC:SIMPLE-ARRAY-UNSIGNED-BYTE-16-TYPE OLD-SPARC:SIMPLE-ARRAY-UNSIGNED-BYTE-32-TYPE OLD-SPARC:SIMPLE-ARRAY-SIGNED-BYTE-8-TYPE OLD-SPARC:SIMPLE-ARRAY-SIGNED-BYTE-16-TYPE OLD-SPARC:SIMPLE-ARRAY-SIGNED-BYTE-30-TYPE OLD-SPARC:SIMPLE-ARRAY-SIGNED-BYTE-32-TYPE OLD-SPARC:SIMPLE-BIT-VECTOR-TYPE OLD-SPARC:SIMPLE-STRING-TYPE OLD-SPARC:SIMPLE-VECTOR-TYPE OLD-SPARC:SIMPLE-ARRAY-TYPE OLD-SPARC:VECTOR-DATA-OFFSET OLD-SPARC:CERROR-TRAP OLD-SPARC:ERROR-TRAP OLD-SPARC::LOWTAG-BITS OLD-SPARC:CATCH-BLOCK-SIZE )) (let ((function (symbol-function 'kernel:error-number-or-lose))) (let ((*info-environment* (c:backend-info-environment c:*target-backend*))) (setf (symbol-function 'kernel:error-number-or-lose) function) (setf (info function kind 'kernel:error-number-or-lose) :function) (setf (info function where-from 'kernel:error-number-or-lose) :defined))) (defun fix-class (name) (let* ((new-value (find-class name)) (new-layout (kernel::class-layout new-value)) (new-cell (kernel::find-class-cell name)) (*info-environment* (c:backend-info-environment c:*target-backend*))) (remhash name kernel::*forward-referenced-layouts*) (kernel::%note-type-defined name) (setf (info type kind name) :instance) (setf (info type class name) new-cell) (setf (info type compiler-layout name) new-layout) new-value)) (fix-class 'c::vop-parse) (fix-class 'c::operand-parse) #+random-mt19937 (declaim (notinline kernel:random-chunk)) (setf c:*backend* c:*target-backend*) ;;; Ready to build. (pushnew :bootstrap *features*) #+nil (let* ((old-package :old-sparc) (sym (find-symbol "ANY-REG" old-package))) (unintern sym (symbol-package sym)) ;;(import sym :sparc) (import sym old-package) ) ;; hack, hack, hack: Make old-sparc::any-reg the same as ;; sparc::any-reg as an SC. Do this by adding old-sparc::any-reg to ;; the hash table with the same value as sparc::any-reg. (let ((ht (c::backend-sc-names c::*target-backend*))) (setf (gethash 'old-sparc::any-reg ht) (gethash 'sparc::any-reg ht))) (in-package "ALIEN") (defun %def-alien-variable (lisp-name alien-name type) (setf (info variable kind lisp-name) :alien) (setf (info variable where-from lisp-name) :defined) (clear-info variable constant-value lisp-name) (setf (info variable alien-info lisp-name) (make-heap-alien-info :type type :sap-form `(foreign-symbol-address ',alien-name :flavor :data)))) (defmacro extern-alien (name type) "Access the alien variable named NAME, assuming it is of type TYPE. This is setfable." (let* ((alien-name (etypecase name (symbol (guess-alien-name-from-lisp-name name)) (string name))) (alien-type (parse-alien-type type)) (flavor (if (alien-function-type-p alien-type) :code :data))) `(%heap-alien ',(make-heap-alien-info :type alien-type :sap-form `(foreign-symbol-address ',alien-name :flavor ',flavor))))) (defmacro with-alien (bindings &body body) "Establish some local alien variables. Each BINDING is of the form: VAR TYPE [ ALLOCATION ] [ INITIAL-VALUE | EXTERNAL-NAME ] ALLOCATION should be one of: :LOCAL (the default) The alien is allocated on the stack, and has dynamic extent. :STATIC The alien is allocated on the heap, and has infinate extent. The alien is allocated at load time, so the same piece of memory is used each time this form executes. :EXTERN No alien is allocated, but VAR is established as a local name for the external alien given by EXTERNAL-NAME." (with-auxiliary-alien-types (dolist (binding (reverse bindings)) (destructuring-bind (symbol type &optional (opt1 nil opt1p) (opt2 nil opt2p)) binding (let* ((alien-type (parse-alien-type type)) (flavor (if (alien-function-type-p alien-type) :code :data))) (multiple-value-bind (allocation initial-value) (if opt2p (values opt1 opt2) (case opt1 (:extern (values opt1 (guess-alien-name-from-lisp-name symbol))) (:static (values opt1 nil)) (t (values :local opt1)))) (setf body (ecase allocation #+nil (:static (let ((sap (make-symbol (concatenate 'string "SAP-FOR-" (symbol-name symbol))))) `((let ((,sap (load-time-value (%make-alien ...)))) (declare (type system-area-pointer ,sap)) (symbol-macrolet ((,symbol (sap-alien ,sap ,type))) ,@(when initial-value `((setq ,symbol ,initial-value))) ,@body))))) (:extern (let ((info (make-heap-alien-info :type alien-type :sap-form `(foreign-symbol-address ',initial-value :flavor ',flavor)))) `((symbol-macrolet ((,symbol (%heap-alien ',info))) ,@body)))) (:local (let ((var (gensym)) (initval (if initial-value (gensym))) (info (make-local-alien-info :type alien-type))) `((let ((,var (make-local-alien ',info)) ,@(when initial-value `((,initval ,initial-value)))) (note-local-alien-type ',info ,var) (multiple-value-prog1 (symbol-macrolet ((,symbol (local-alien ',info ,var))) ,@(when initial-value `((setq ,symbol ,initval))) ,@body) (dispose-local-alien ',info ,var) ))))))))))) (verify-local-auxiliaries-okay) `(compiler-let ((*auxiliary-type-definitions* ',(append *new-auxiliary-types* *auxiliary-type-definitions*))) ,@body))) (defparameter cl-user::*load-stuff* nil) #| (load "target:tools/worldcom") (load "target:tools/comcom") ;;; If worldbuild produces a warning that "The C header file has ;;; changed." then it will be necessary to recompile the C code, and ;;; run worldload again. (load "target:tools/worldbuild") (quit) |#