please dont rip this site
;
;  SX macro library
;  Developed by Karl Lunt, May 1999
;  translated from PIC to SX by Nikolai Golovchenko [golovchenko at mail.ru]
;

	messg	"Karl Lunt's PIC macro library, version 1.0"

;
;  This library provides macros for program structures such
;  as FOR-NEXT, REPEAT-ALWAYS, REPEAT-UNTIL, and others.
;
;  To incorporate this library in your PIC assembler program,
;  add the following INCLUDE statement immediately after the
;  INCLUDE statement that adds the Microchip equates for your
;  specific processor:
;
;	include		"macros.asm"
;
;  For example, if you are developing code for the 12c672,
;  you would use equates similar to:
;
;	include		".\p12c672.inc"
;	include		".\macros.asm"
;

;
;  Version 1.0   29 May 1999
;  Initial release.  Includes WAITWHILE, WAITUNTIL, and POLL-ENDPOLL.
;  Changed	mov	W, to movf
;  in NEXTL macro on older PICs, since that macro uses the addlw
;  instruction.
;


;
;  Declare some variables used by the macro library.
;

	variable	_forknt=0
	variable	_nxtknt=0
	variable	_rptknt=0
	variable	_alwknt=0
	variable	_untknt=0
	variable	_seltot=0
	variable	_selknt=0
	variable	_castot=0
	variable	_casknt=0
	variable	_waitk=0
	variable	_pollk=0
	variable	_pollt=0



;
;  Define the BEQ (branch-if-equal)
;
;  Syntax:
;		beq	label
;
;  The BEQ macro tests the current state of the Z-bit.  It
;  does not alter W or any registers.
;

beq	macro	addr
	snb	Z
	jmp	addr
	endm


;
;  BNE (branch-if-not-equal)
;
;  Syntax:
;		bne	label
;
;  The BNE macro tests the current state of the Z-bit.  It
;  does not alter W or any registers.
;

bne	macro	addr
	sb	Z
	jmp	addr
	endm


;
;  FOR (start of FOR-NEXT loop)
;
;  Syntax:
;		for	var,begl,endl
;
;  The FOR macro starts a FOR-NEXT loop.  The arguments are:
;  var is a RAM variable used as the loop index,
;  begl is a literal value used as the initial index value,
;  endl is a literal value used as the ending index value.
;
;  Control will run through the FOR-NEXT loop until the value
;  in var EQUALS the endl literal value; the value is tested
;  at the top of the loop.  At this point, control exits the
;  loop at the corresponding NEXT macro.
;
;  This macro destroys the contents of the W register.
;
;  You may terminate a FOR loop with NEXT, NEXTL, or NEXTF.
;

for	macro	var,begl,endl
	mov	W, #begl
	mov	var, W
_for#v(_forknt)
	mov	W, #endl
	mov	W, var-w
;	mov	W, var
;*** WARNING: Manual replacement required for "SUBLW k" instruction (w = k - w). Check if previous instruction is a skip instruction. 
;	sublw	endl
	beq	_next#v(_forknt)
_forknt	set	_forknt+1
_nxtknt	set	_forknt
	endm


;
;  FORF (start of FORF-NEXT loop)
;
;  Syntax:
;		forf	var,begl,endf
;
;  The FORF macro starts a FORF-NEXT loop.  The arguments are:
;  var is a RAM variable used as the loop index,
;  begl is a literal value used as the initial index value,
;  endf is a flag or RAM variable used as the ending index
;  value.
;
;  Control will run through the FORF-NEXT loop until the value
;  in var EQUALS the endf variable value; the value is tested
;  at the top of the loop.  At this point, control exits the
;  loop at the corresponding NEXT macro.
;
;  This macro destroys the contents of the W register.
;
;  You may terminate a FORF loop with NEXT, NEXTL, or NEXTF.
;

forf	macro	var,begl,endf
	mov	W, #begl
	mov	var, W
_for#v(_forknt)
	mov	W, var
	sub	endf, W
	beq	_next#v(_forknt)
_forknt	set	_forknt+1
_nxtknt	set	_forknt
	endm


;
;  NEXT (end of a FOR-NEXT loop)
;
;  Syntax:
;		next	var
;
;  The NEXT macro terminates a FOR-NEXT loop.  The
;  argument is:
;  var is a RAM variable that is the index of the FOR-NEXT loop.
;
;  Control will increment the value in var, then go back to
;  the top of the FOR-NEXT loop for testing.  Note that the var
;  argument for the NEXT macro must match the var argument for
;  the corresponding FOR macro.  The macro library does not perform
;  this check for you; you have to get it right yourself!
;
;  This macro alters the contents of the W register and the index
;  variable var.
;
;  You may use NEXT to terminate a FOR-NEXT, FORF-NEXT, or
;  FORL-NEXT loop.
;

next	macro	var
_nxtknt	set	_nxtknt-1
	inc	var
	jmp	_for#v(_nxtknt)
_next#v(_nxtknt)
	endm


;
;  NEXTL (end of a FOR-NEXTL loop)
;
;  Syntax:
;		nextl	var,incl
;
;  The NEXTL macro terminates a FOR-NEXTL loop.  The
;  arguments are:
;  var is a RAM variable that is the index of the FOR-NEXTL loop,
;  incl is a literal value used to modify the index.
;
;  Control will add the literal incl to the value in var, then
;  go back to the top of the FOR-NEXTL loop for testing.  Note
;  that the var argument for the NEXTL macro must match the var
;  argument for the corresponding FOR macro.  The macro library
;  does not perform this check for you; you have to get it right
;  yourself!
;
;  This macro alters the contents of the W register and the index
;  variable var.
;
;  You may use NEXTL to terminate a FOR-NEXTL, FORF-NEXTL, or
;  FORL-NEXTL loop.
;
;  NOTE:  This macro uses the addlw instruction, which is not
;  supported on the older PICs, such as the 16c54.  Using this
;  macro in a source file for such a chip will generate assembler
;  errors.
;

nextl	macro	var,incl
_nxtknt	set	_nxtknt-1
	mov	W, var
;*** WARNING: ADDLW was expanded in three instructions! Check if previous instruction is a skip instruction. 
;	addlw	incl
	mov	Hack, W
	mov	W, #incl
	add	W, Hack
	mov	var, W
	jmp	_for#v(_nxtknt)
_next#v(_nxtknt)
	endm


;
;  NEXTF (end of a FOR-NEXTF loop)
;
;  Syntax:
;		nextf	var,incf
;
;  The NEXTF macro terminates a FOR-NEXTF loop.  The
;  arguments are:
;  var is a RAM variable that is the index of the FOR-NEXTL loop,
;	inc	is a register whose value is used to modify the index.
;
;  Control will add the value in incf to the value in var, then
;  go back to the top of the FOR-NEXTF loop for testing.  Note
;  that the var argument for the NEXTF macro must match the var
;  argument for the corresponding FOR macro.  The macro library
;  does not perform this check for you; you have to get it right
;  yourself!
;
;  This macro alters the contents of the W register and the index
;  variable var.
;
;  You may use NEXTF to terminate a FOR-NEXTF, FORF-NEXTF, or
;  FORL-NEXTF loop.
;

nextf	macro	var,incf
_nxtknt	set	_nxtknt-1
	mov	W, var
	add	incf, W
	jmp	_for#v(_nxtknt)
_next#v(_nxtknt)
	endm


;
;  REPEAT (start of a REPEAT-ALWAYS or REPEAT-UNTIL loop)
;
;  Syntax:
;		repeat
;
;  The REPEAT macro marks the start of a REPEAT-ALWAYS or
;  REPEAT-UNTILEQ or REPEAT-UNTILNE loop.  Control will always
;	ret
;  terminated with an ALWAYS macro.  Control will conditionally
;	ret
;  terminated with an UNTILEQ or UNTILNE macro.
;
;  This macro does not alter the W register.
;

repeat	macro
_rpt#v(_rptknt)
_rptknt	set	_rptknt+1
_alwknt	set	_rptknt
_untknt	set	_rptknt
	endm


;
;  ALWAYS (returns to corresponding REPEAT macro)
;
;  Syntax:
;		always
;
;  The ALWAYS macro marks the end of a REPEAT-ALWAYS loop.
;  Control is automatically passed back to the corresponding
;  REPEAT macro.
;
;  This macro does not alter the W register.
;

always	macro
_alwknt	set	_alwknt-1
	jmp	_rpt#v(_alwknt)
	endm


;
;  UNTILEQ (conditionally returns to corresponding REPEAT macro)
;
;  Syntax:
;		untileq
;
;  The UNTILEQ macro marks the end of a REPEAT-UNTILEQ loop.
;  Control is passed back to the corresponding REPEAT macro only
;  if the Z-bit is cleared at the time the UNTILEQ macro is
;  processed.
;
;  This macro does not alter the W register.
;

untileq	macro
_untknt	set	_untknt-1
	bne	_rpt#v(_untknt)
	endm


;
;  UNTILNE (conditionally returns to corresponding REPEAT macro)
;
;  Syntax:
;		untilne
;
;  The UNTILEQ macro marks the end of a REPEAT-UNTILNE loop.
;  Control is passed back to the corresponding REPEAT macro only
;  if the Z-bit is set at the time the UNTILNE macro is processed.
;
;  This macro does not alter the W register.
;

untilne	macro
_untknt	set	_untknt-1
	beq	_rpt#v(_untknt)
	endm


;
;  SELECT (declares start of SELECT-ENDSELECT structure)
;
;  Syntax:
;		select
;
;  The SELECT macro marks the beginning of a SELECT-ENDSELECT
;  structure.  A typical SELECT-ENDSELECT structure looks like this:
;
;	select			; start of SELECT block
;	case	5		; if W = 5...
;	  .			; do something
;	endcase			; end of W = 5 clause
;	casef	foo		; if W = foo
;	  .			; do something else
;	endcase			; end of W = foo clause
;	  .			; default action (all cases fail)
;	endselect		; end of SELECT block
;
;  This macro does not alter the W register.
;

select	macro
_seltot	set	_seltot+1
_selknt	set	_seltot
	endm


;
;  ENDSELECT (declares end of SELECT-ENDSELECT structure)
;
;  Syntax:
;		endselect
;
;  The ENDSELECT macro marks the end of a SELECT-ENDSELECT
;  structure.  You must terminate each SELECT macro with
;  a matching ENDSELECT macro or MPASM will report errors.
;
;  This macro does not alter the W register.
;

endselect	macro
sel#v(_selknt)
_selknt	set	_selknt-1
	endm


;
;  CASE (declares start of a CASE-ENDCASE structure)
;
;  Syntax:
;		case	lit
;
;  where lit is a literal value used as the CASE selector.
;
;  When the CASE macro is executed, the value in W is compared
;  with the literal value lit.  If W equals lit, code following
;  the CASE macro is executed.  If W does not equal lit, control
;  passes to the code following the corresponding ENDCASE macro.
;
;  W is preserved in the CASE macro.
;

case	macro	lit
_castot set	_castot+1
_casknt	set	_castot
	xor	W, #lit
	beq	cas#v(_casknt)
	xor	W, #lit
	jmp	ecas#v(_casknt)
cas#v(_casknt)
	xor	W, #lit
	endm


;
;  CASEF (declares start of a CASEF-ENDCASE structure)
;
;  Syntax:
;		casef	var
;
;  where var is a register or variable used as the CASEF selector.
;
;  When the CASEF macro is executed, the value in W is compared
;  with the value in var.  If W equals var, code following
;  the CASEF macro is executed.  If W does not equal var, control
;  passes to the code following the corresponding ENDCASE macro.
;
;  W is preserved in the CASEF macro.
;

casef	macro	var
_castot set	_castot+1
_casknt	set	_castot
	xor	W, var
	beq	cas#v(_casknt)
	xor	W, var
	jmp	ecas#v(_casknt)
cas#v(_casknt)
	xor	W, var
	endm


;
;  ENDCASE (declares end of a CASE-ENDCASE or CASEF-ENDCASE structure)
;
;  Syntax:
;		endcase
;
;  The ENDCASE macro marks the end of a CASE-ENDCASE or CASEF-ENDCASE
;  structure.  This macro serves as a jump address for the corresponding
;  CASE or CASEF macro.
;
;  You must have an ENDCASE macro for each CASE or CASEF macro.  If
;  not, MPASM will report errors when it assembles your code.
;
;  This macro preserves the W register.
;

endcase	macro
	jmp	sel#v(_selknt)
ecas#v(_casknt)
_casknt	set	_casknt-1
	endm


;
;  WAITWHILE (declares a high-speed WAIT-WHILE loop)
;
;  Syntax:
;
;  		waitwhile	addr,andl,xorl
;
;  The WAITWHILE macro creates a tight loop that reads the byte
;  in address addr, ANDs it with the literal andl, then XORs the
;  result with the literal xorl.  If the result is TRUE (non-zero),
;  the loop repeats.  If the result is FALSE (zero), control exits
;  the macro.
;
;  This macro destroys the W register.  It does not modify addr.
;

waitwhile	macro	addr,andl,xorl
waitw#v(_waitk)
	mov	W, addr
	and	W, #andl
	if	xorl != 0
	xor	W, #xorl
	endif
	bne	waitw#v(_waitk)
_waitk	set	_waitk+1
	endm


;
;  WAITUNTIL (declares a high-speed WAIT-UNTIL loop)
;
;  Syntax:
;
;  		waituntil	addr,andl,xorl
;
;  The WAITUNTIL macro creates a tight loop that reads the byte
;  in address addr, ANDs it with the literal andl, then XORs the
;  result with the literal xorl.  If the result is TRUE (non-zero),
;  control exits the macro.  If the result is FALSE (zero),
;  the loop repeats.
;
;  This macro destroys the W register.  It does not modify addr.
;


waituntil	macro	addr,andl,xorl
waitw#v(_waitk)
	mov	W, addr
	and	W, #andl
	if	xorl != 0
	xor	W, #xorl
	endif
	beq	waitw#v(_waitk)
_waitk	set	_waitk+1
	endm


;
;  POLL (starts a POLL-ENDPOLL structure)
;
;  Syntax:
;
;  		poll	addr,andl,xorl
;
;  The POLL macro reads the byte in address addr, ANDs it with
;  the literal andl, then XORs the result with the literal xorl.
;  If the result is TRUE (non-zero), control passes to the code
;  immediately following the macro.  If the result is FALSE
;  (zero), control jumps to the corresponding ENDPOLL macro.
;
;  For example, the following POLL command will test the address
;  SPORT for bit 3 high:
;
;	poll	SPORT,8,0		test bit 3
;	nop
;	endpoll
;
;  The following POLL command will test the address SPORT for
;  bit 3 high while either bits 2 or 1 are low:
;
;	poll	SPORT,0x0e,0x06		test bits 1-3
;	nop
;	endpoll
;
;  This macro destroys the W register.  It does not modify addr.
;


poll	macro	addr,andl,xorl
_pollt	set	_pollt+1
_pollk	set	_pollt
	mov	W, addr
	and	W, #andl
	xor	W, #xorl
	beq	poll#v(_pollk)
	endm


;
;  ENDPOLL (marks end of a POLL-ENDPOLL structure)
;
;  The ENDPOLL macro terminates a POLL-ENDPOLL structure.
;  Control reaches this macro if the associated POLL macro
;  fails.
;

endpoll	macro
poll#v(_pollk)
_pollk	set	_pollk-1
	endm



file: /Techref/scenix/lib/flow/macros-kl_sx.htm, 13KB, , updated: 2001/4/17 11:12, local time: 2024/11/21 13:58,
TOP NEW HELP FIND: 
18.219.209.144:LOG IN

 ©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions?
Please DO link to this page! Digg it! / MAKE!

<A HREF="http://techref.massmind.org/techref/scenix/lib/flow/macros-kl_sx.htm"> scenix lib flow macros-kl_sx</A>

After you find an appropriate page, you are invited to your to this massmind site! (posts will be visible only to you before review) Just type a nice message (short messages are blocked as spam) in the box and press the Post button. (HTML welcomed, but not the <A tag: Instead, use the link box to link to another page. A tutorial is available Members can login to post directly, become page editors, and be credited for their posts.


Link? Put it here: 
if you want a response, please enter your email address: 
Attn spammers: All posts are reviewed before being made visible to anyone other than the poster.
Did you find what you needed?

 

Welcome to massmind.org!

 

Welcome to techref.massmind.org!

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

  .