(defun clear-constant-info ()
(maphash (lambda (k v)
(declare (ignore k))
- (setf (leaf-info v) nil))
+ (setf (leaf-info v) nil)
+ (setf (constant-boxed-tn v) nil))
*constants*)
(maphash (lambda (k v)
(declare (ignore k))
(when (constant-p v)
- (setf (leaf-info v) nil)))
+ (setf (leaf-info v) nil)
+ (setf (constant-boxed-tn v) nil)))
*free-vars*)
(values))
(handler-case
(read-preserving-whitespace stream nil stream)
(reader-error (condition)
- (error 'input-error-in-compile-file
- :condition condition
- ;; We don't need to supply :POSITION here because
- ;; READER-ERRORs already know their position in the file.
- ))
+ (compiler-error 'input-error-in-compile-file
+ ;; We don't need to supply :POSITION here because
+ ;; READER-ERRORs already know their position in the file.
+ :condition condition
+ :stream stream))
;; ANSI, in its wisdom, says that READ should return END-OF-FILE
;; (and that this is not a READER-ERROR) when it encounters end of
;; file in the middle of something it's trying to read.
(end-of-file (condition)
- (error 'input-error-in-compile-file
- :condition condition
- ;; We need to supply :POSITION here because the END-OF-FILE
- ;; condition doesn't carry the position that the user
- ;; probably cares about, where the failed READ began.
- :position position))))
+ (compiler-error 'input-error-in-compile-file
+ :condition condition
+ ;; We need to supply :POSITION here because the END-OF-FILE
+ ;; condition doesn't carry the position that the user
+ ;; probably cares about, where the failed READ began.
+ :position position
+ :stream stream))
+ (error (condition)
+ (compiler-error 'input-error-in-compile-file
+ :condition condition
+ :position position
+ :stream stream))))
;;; If STREAM is present, return it, otherwise open a stream to the
;;; current file. There must be a current file.
;;; We only expand one level, so that we retain all the intervening
;;; forms in the source path.
(defun preprocessor-macroexpand-1 (form)
- (handler-case (sb!xc:macroexpand-1 form *lexenv*)
+ (handler-case (%macroexpand-1 form *lexenv*)
(error (condition)
(compiler-error "(during macroexpansion of ~A)~%~A"
(let ((*print-level* 2)
;;; compilation. Normally just evaluate in the appropriate
;;; environment, but also compile if outputting a CFASL.
(defun eval-compile-toplevel (body path)
- (eval-in-lexenv `(progn ,@body) *lexenv*)
+ (eval-tlf `(progn ,@body) (source-path-tlf-number path) *lexenv*)
(when *compile-toplevel-object*
(let ((*compile-object* *compile-toplevel-object*))
(convert-and-maybe-compile `(progn ,@body) path))))
(*fun-names-in-this-file* ())
(*allow-instrumenting* nil)
(*compiler-error-bailout*
- (lambda ()
- (compiler-mumble "~2&; fatal error, aborting compilation~%")
+ (lambda (&optional error)
+ (declare (ignore error))
(return-from sub-compile-file (values t t t))))
(*current-path* nil)
(*last-source-context* nil)
(compile name lambda))
#+sb-xc-host
-(defun eval-in-lexenv (form lexenv)
- (declare (ignore lexenv))
+(defun eval-tlf (form index &optional lexenv)
+ (declare (ignore index lexenv))
(eval form))