; ; 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
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