X-Git-Url: http://git.chise.org/gitweb/?p=chise%2Fxemacs-chise.git.1;a=blobdiff_plain;f=lisp%2Fmule%2Fauto-autoloads.el;h=78c9da613de3cc6c765b13ba480da05765f70e90;hp=eaed7c8092a758371e35dd1e18c570343c04a2dc;hb=a5812bf2ff9a9cf40f4ff78dcb83f5b4c295bd18;hpb=ccce6217f84987dff10ed3d2b60b9f0f65d8f25a

diff --git a/lisp/mule/auto-autoloads.el b/lisp/mule/auto-autoloads.el
index eaed7c8..78c9da6 100644
--- a/lisp/mule/auto-autoloads.el
+++ b/lisp/mule/auto-autoloads.el
@@ -1,10 +1,7 @@
 ;;; DO NOT MODIFY THIS FILE
 (if (featurep 'mule-autoloads) (error "Already loaded"))
 
-;;;### (autoloads (ccl-execute-with-args check-ccl-program define-ccl-program declare-ccl-program ccl-dump ccl-compile ccl-program-p) "mule-ccl" "mule/mule-ccl.el")
-
-(autoload 'ccl-program-p "mule-ccl" "\
-T if OBJECT is a valid CCL compiled code." nil nil)
+;;;### (autoloads (ccl-execute-with-args check-ccl-program define-ccl-program declare-ccl-program ccl-dump ccl-compile) "mule-ccl" "mule/mule-ccl.el")
 
 (autoload 'ccl-compile "mule-ccl" "\
 Return a compiled code of CCL-PROGRAM as a vector of integer." nil nil)
@@ -15,25 +12,233 @@ Disassemble compiled CCL-CODE." nil nil)
 (autoload 'declare-ccl-program "mule-ccl" "\
 Declare NAME as a name of CCL program.
 
-To compile a CCL program which calls another CCL program not yet
-defined, it must be declared as a CCL program in advance.
+This macro exists for backward compatibility.  In the old version of
+Emacs, to compile a CCL program which calls another CCL program not
+yet defined, it must be declared as a CCL program in advance.  But,
+now CCL program names are resolved not at compile time but before
+execution.
+
 Optional arg VECTOR is a compiled CCL code of the CCL program." nil 'macro)
 
 (autoload 'define-ccl-program "mule-ccl" "\
 Set NAME the compiled code of CCL-PROGRAM.
-CCL-PROGRAM is `eval'ed before being handed to the CCL compiler `ccl-compile'.
-The compiled code is a vector of integers." nil 'macro)
+
+CCL-PROGRAM has this form:
+	(BUFFER_MAGNIFICATION
+	 CCL_MAIN_CODE
+	 [ CCL_EOF_CODE ])
+
+BUFFER_MAGNIFICATION is an integer value specifying the approximate
+output buffer magnification size compared with the bytes of input data
+text.  If the value is zero, the CCL program can't execute `read' and
+`write' commands.
+
+CCL_MAIN_CODE and CCL_EOF_CODE are CCL program codes.  CCL_MAIN_CODE
+executed at first.  If there's no more input data when `read' command
+is executed in CCL_MAIN_CODE, CCL_EOF_CODE is executed.  If
+CCL_MAIN_CODE is terminated, CCL_EOF_CODE is not executed.
+
+Here's the syntax of CCL program code in BNF notation.  The lines
+starting by two semicolons (and optional leading spaces) describe the
+semantics.
+
+CCL_MAIN_CODE := CCL_BLOCK
+
+CCL_EOF_CODE := CCL_BLOCK
+
+CCL_BLOCK := STATEMENT | (STATEMENT [STATEMENT ...])
+
+STATEMENT :=
+	SET | IF | BRANCH | LOOP | REPEAT | BREAK | READ | WRITE | CALL
+	| TRANSLATE | END
+
+SET :=	(REG = EXPRESSION)
+	| (REG ASSIGNMENT_OPERATOR EXPRESSION)
+	;; The following form is the same as (r0 = integer).
+	| integer
+
+EXPRESSION := ARG | (EXPRESSION OPERATOR ARG)
+
+;; Evaluate EXPRESSION.  If the result is nonzeor, execute
+;; CCL_BLOCK_0.  Otherwise, execute CCL_BLOCK_1.
+IF :=	(if EXPRESSION CCL_BLOCK_0 CCL_BLOCK_1)
+
+;; Evaluate EXPRESSION.  Provided that the result is N, execute
+;; CCL_BLOCK_N.
+BRANCH := (branch EXPRESSION CCL_BLOCK_0 [CCL_BLOCK_1 ...])
+
+;; Execute STATEMENTs until (break) or (end) is executed.
+LOOP := (loop STATEMENT [STATEMENT ...])
+
+;; Terminate the most inner loop.
+BREAK := (break)
+
+REPEAT :=
+	;; Jump to the head of the most inner loop.
+	(repeat)
+	;; Same as: ((write [REG | integer | string])
+	;;	     (repeat))
+	| (write-repeat [REG | integer | string])
+	;; Same as: ((write REG [ARRAY])
+	;;	     (read REG)
+	;;	     (repeat))
+	| (write-read-repeat REG [ARRAY])
+	;; Same as: ((write integer)
+	;;	     (read REG)
+	;;	     (repeat))
+	| (write-read-repeat REG integer)
+
+READ := ;; Set REG_0 to a byte read from the input text, set REG_1
+	;; to the next byte read, and so on.
+	(read REG_0 [REG_1 ...])
+	;; Same as: ((read REG)
+	;;	     (if (REG OPERATOR ARG) CCL_BLOCK_0 CCL_BLOCK_1))
+	| (read-if (REG OPERATOR ARG) CCL_BLOCK_0 CCL_BLOCK_1)
+	;; Same as: ((read REG)
+	;;	     (branch REG CCL_BLOCK_0 [CCL_BLOCK_1 ...]))
+	| (read-branch REG CCL_BLOCK_0 [CCL_BLOCK_1 ...])
+	;; Read a character from the input text while parsing
+	;; multibyte representation, set REG_0 to the charset ID of
+	;; the character, set REG_1 to the code point of the
+	;; character.  If the dimension of charset is two, set REG_1
+	;; to ((CODE0 << 8) | CODE1), where CODE0 is the first code
+	;; point and CODE1 is the second code point.
+	| (read-multibyte-character REG_0 REG_1)
+
+WRITE :=
+	;; Write REG_0, REG_1, ... to the output buffer.  If REG_N is
+	;; a multibyte character, write the corresponding multibyte
+	;; representation.
+	(write REG_0 [REG_1 ...])
+	;; Same as: ((r7 = EXPRESSION)
+	;;	     (write r7))
+	| (write EXPRESSION)
+	;; Write the value of `integer' to the output buffer.  If it
+	;; is a multibyte character, write the corresponding multibyte
+	;; representation.
+	| (write integer)
+	;; Write the byte sequence of `string' as is to the output
+	;; buffer.  It is encoded by binary coding system, thus,
+        ;; by this operation, you cannot write multibyte string
+        ;; as it is.
+	| (write string)
+	;; Same as: (write string)
+	| string
+	;; Provided that the value of REG is N, write Nth element of
+	;; ARRAY to the output buffer.  If it is a multibyte
+	;; character, write the corresponding multibyte
+	;; representation.
+	| (write REG ARRAY)
+	;; Write a multibyte representation of a character whose
+	;; charset ID is REG_0 and code point is REG_1.  If the
+	;; dimension of the charset is two, REG_1 should be ((CODE0 <<
+	;; 8) | CODE1), where CODE0 is the first code point and CODE1
+	;; is the second code point of the character.
+	| (write-multibyte-character REG_0 REG_1)
+
+;; Call CCL program whose name is ccl-program-name.
+CALL := (call ccl-program-name)
+
+;; Terminate the CCL program.
+END := (end)
+
+;; CCL registers that can contain any integer value.  As r7 is also
+;; used by CCL interpreter, its value is changed unexpectedly.
+REG := r0 | r1 | r2 | r3 | r4 | r5 | r6 | r7
+
+ARG := REG | integer
+
+OPERATOR :=
+	;; Normal arithmethic operators (same meaning as C code).
+	+ | - | * | / | %
+
+	;; Bitwize operators (same meaning as C code)
+	| & | `|' | ^
+
+	;; Shifting operators (same meaning as C code)
+	| << | >>
+
+	;; (REG = ARG_0 <8 ARG_1) means:
+	;;	(REG = ((ARG_0 << 8) | ARG_1))
+	| <8
+
+	;; (REG = ARG_0 >8 ARG_1) means:
+	;;	((REG = (ARG_0 >> 8))
+	;;	 (r7 = (ARG_0 & 255)))
+	| >8
+
+	;; (REG = ARG_0 // ARG_1) means:
+	;;	((REG = (ARG_0 / ARG_1))
+	;;	 (r7 = (ARG_0 % ARG_1)))
+	| //
+
+	;; Normal comparing operators (same meaning as C code)
+	| < | > | == | <= | >= | !=
+
+	;; If ARG_0 and ARG_1 are higher and lower byte of Shift-JIS
+	;; code, and CHAR is the corresponding JISX0208 character,
+	;; (REG = ARG_0 de-sjis ARG_1) means:
+	;;	((REG = CODE0)
+	;;	 (r7 = CODE1))
+	;; where CODE0 is the first code point of CHAR, CODE1 is the
+	;; second code point of CHAR.
+	| de-sjis
+
+	;; If ARG_0 and ARG_1 are the first and second code point of
+	;; JISX0208 character CHAR, and SJIS is the correponding
+	;; Shift-JIS code,
+	;; (REG = ARG_0 en-sjis ARG_1) means:
+	;;	((REG = HIGH)
+	;;	 (r7 = LOW))
+	;; where HIGH is the higher byte of SJIS, LOW is the lower
+	;; byte of SJIS.
+	| en-sjis
+
+ASSIGNMENT_OPERATOR :=
+	;; Same meaning as C code
+	+= | -= | *= | /= | %= | &= | `|=' | ^= | <<= | >>=
+
+	;; (REG <8= ARG) is the same as:
+	;;	((REG <<= 8)
+	;;	 (REG |= ARG))
+	| <8= 
+
+	;; (REG >8= ARG) is the same as:
+	;;	((r7 = (REG & 255))
+	;;	 (REG >>= 8))
+
+	;; (REG //= ARG) is the same as:
+	;;	((r7 = (REG % ARG))
+	;;	 (REG /= ARG))
+	| //=
+
+ARRAY := `[' integer ... `]'
+
+
+TRANSLATE :=
+	(translate-character REG(table) REG(charset) REG(codepoint))
+	| (translate-character SYMBOL REG(charset) REG(codepoint))
+MAP :=
+     (iterate-multiple-map REG REG MAP-IDs)
+     | (map-multiple REG REG (MAP-SET))
+     | (map-single REG REG MAP-ID)
+MAP-IDs := MAP-ID ...
+MAP-SET := MAP-IDs | (MAP-IDs) MAP-SET
+MAP-ID := integer
+" nil 'macro)
 
 (autoload 'check-ccl-program "mule-ccl" "\
 Check validity of CCL-PROGRAM.
-If CCL-PROGRAM is a symbol denoting a valid CCL program, return
+If CCL-PROGRAM is a symbol denoting a CCL program, return
 CCL-PROGRAM, else return nil.
 If CCL-PROGRAM is a vector and optional arg NAME (symbol) is supplied,
 register CCL-PROGRAM by name NAME, and return NAME." nil 'macro)
 
 (autoload 'ccl-execute-with-args "mule-ccl" "\
 Execute CCL-PROGRAM with registers initialized by the remaining args.
-The return value is a vector of resulting CCL registers." nil nil)
+The return value is a vector of resulting CCL registers.
+
+See the documentation of `define-ccl-program' for the detail of CCL program." nil nil)
 
 ;;;***