(in-package "SB!IMPL")
(sb!xc:deftype attribute-table ()
- '(simple-array (unsigned-byte 8) (#.sb!xc:char-code-limit)))
+ '(simple-array (unsigned-byte 8) (#.base-char-code-limit)))
;;; constants for readtable character attributes. These are all as in
;;; the manual.
+;;;
+;;; FIXME: wait a minute. Firstly, I doubt they're in the manual.
+;;; Secondly, the numerical order of these constants is coupled with
+;;; code in CHAR-CLASS{,2,3} in the reader implementation, so beware
+;;; when changing them.
(def!constant +char-attr-whitespace+ 0)
(def!constant +char-attr-terminating-macro+ 1)
-(def!constant +char-attr-escape+ 2)
-(def!constant +char-attr-constituent+ 3)
-(def!constant +char-attr-constituent-dot+ 4)
-(def!constant +char-attr-constituent-expt+ 5)
-(def!constant +char-attr-constituent-slash+ 6)
-(def!constant +char-attr-constituent-digit+ 7)
-(def!constant +char-attr-constituent-sign+ 8)
+(def!constant +char-attr-single-escape+ 2)
+(def!constant +char-attr-multiple-escape+ 3)
+(def!constant +char-attr-constituent+ 4)
+(def!constant +char-attr-constituent-dot+ 5)
+(def!constant +char-attr-constituent-expt+ 6)
+(def!constant +char-attr-constituent-slash+ 7)
+(def!constant +char-attr-constituent-digit+ 8)
+(def!constant +char-attr-constituent-sign+ 9)
;;; the following two are not static but depend on *READ-BASE*.
;;; DECIMAL-DIGIT is for characters being digits in base 10 but not in
;;; base *READ-BASE* (which is therefore perforce smaller than 10);
;;; DIGIT-OR-EXPT is for characters being both exponent markers and
;;; digits in base *READ-BASE* (which is therefore perforce larger
;;; than 10). -- CSR, 2004-03-16
-(def!constant +char-attr-constituent-decimal-digit+ 9)
-(def!constant +char-attr-constituent-digit-or-expt+ 10)
+(def!constant +char-attr-constituent-decimal-digit+ 10)
+(def!constant +char-attr-constituent-digit-or-expt+ 11)
-(def!constant +char-attr-multiple-escape+ 11)
(def!constant +char-attr-package-delimiter+ 12)
-(def!constant +char-attr-delimiter+ 13) ; (a fake for READ-UNQUALIFIED-TOKEN)
+(def!constant +char-attr-invalid+ 13)
+(def!constant +char-attr-delimiter+ 14) ; (a fake for READ-UNQUALIFIED-TOKEN)
(sb!xc:defstruct (readtable (:conc-name nil)
- (:predicate readtablep)
- ;; ANSI requires a CL:COPY-READTABLE to do
- ;; a deep copy, so the DEFSTRUCT-generated
- ;; default is not suitable.
- (:copier nil))
+ (:predicate readtablep)
+ ;; ANSI requires a CL:COPY-READTABLE to do
+ ;; a deep copy, so the DEFSTRUCT-generated
+ ;; default is not suitable.
+ (:copier nil))
#!+sb-doc
"A READTABLE is a data structure that maps characters into syntax
types for the Common Lisp expression reader."
;; In order to make READ-TOKEN fast, all this information is stored
;; in the character attribute table by having different varieties of
;; constituents.
- (character-attribute-table
- (make-array sb!xc:char-code-limit
- :element-type '(unsigned-byte 8)
- :initial-element +char-attr-constituent+)
+ (character-attribute-array
+ (make-array base-char-code-limit
+ :element-type '(unsigned-byte 8)
+ :initial-element +char-attr-constituent+)
:type attribute-table)
+ (character-attribute-hash-table (make-hash-table) :type hash-table)
;; The CHARACTER-MACRO-TABLE is a vector of CHAR-CODE-LIMIT
;; functions. One of these functions called with appropriate
;; arguments whenever any non-WHITESPACE character is encountered
;; inside READ-PRESERVING-WHITESPACE. These functions are used to
;; implement user-defined read-macros, system read-macros, and the
;; number-symbol reader.
- (character-macro-table
- (make-array sb!xc:char-code-limit :initial-element #'undefined-macro-char)
- :type (simple-vector #.sb!xc:char-code-limit))
+ (character-macro-array
+ (make-array base-char-code-limit :initial-element #'undefined-macro-char)
+ :type (simple-vector #.base-char-code-limit))
+ (character-macro-hash-table (make-hash-table) :type hash-table)
;; an alist from dispatch characters to vectors of CHAR-CODE-LIMIT
;; functions, for use in defining dispatching macros (like #-macro)
(dispatch-tables () :type list)