;KeyMacs.src by James Newton ;Structured programming and memory management macros and layout for the SXKey ;Copyright 2000,2001,2002 James Newton <james@sxlist.com> ; This program is free software; you can redistribute it and/or modify ; it under the terms of the GNU General Public License version 2 as published ; by the Free Software Foundation. Note that permission is not granted ; to redistribute this program under the terms of any other version of the ; General Public License. ; ; This program is distributed in the hope that it will be useful, ; but WITHOUT ANY WARRANTY; without even the implied warranty of ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ; GNU General Public License for more details. ; ; You should have received a copy of the GNU General Public License ; along with this program; if not, write to the Free Software ; Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. ; ;Change these as required to reflect your target device device SX28L ;SX18L, SX28L, SX48L, SX52L CpuMhz = 50 CpuPins = 28 ;=18,28,48, or 52 CpuLongDate = 1 ;=0 for old 4 digit date code, =1 for new "A" 8 digit date code CpuMode = 0 ;=0 for debug, =1 for full speed CpuCarry = 1 ;carryx is on. IF CpuPins = 18 IF CpuLongDate = 1 device turbo, STACKX_OPTIONX ELSE device pins18, pages8, banks8, turbo, stackx, optionx ENDIF ENDIF IF CpuPins = 28 IF CpuLongDate = 1 device turbo, STACKX_OPTIONX ELSE device pins28, pages8, banks8, turbo, stackx, optionx ENDIF ENDIF IF CpuPins = 52 or CpuPins = 48 IF CpuLongDate = 1 error 'A longdate SX48/52 did not exist at the time this ap was written' ELSE device DRTOFF, TURBO, STACKX, OPTIONX ENDIF ENDIF IF CpuCarry = 1 device carryx ENDIF IF CpuMode = 1 IF CpuLongDate = 1 device OSCXTMAX ELSE device oschs ;full speed operation ENDIF ELSE device oscrc ;debug operation ENDIF IF CpuMhz = 50 freq 50_000_000 ENDIF IF CpuMhz = 100 freq 100_000_000 ENDIF IF CpuPins > 18 IF CpuPins > 28 GPRegOrg = $0A ;$0A to $0F - limited to 6 bytes - global ELSE GPRegOrg = 8 ;$08 to $0F - limited to 8 bytes - global ENDIF ELSE GPRegOrg = 7 ;$07 to $0F - limited to 9 bytes - global ENDIF ;change YOURID to up to 8 characters that identify the project. id 'YOURID' RESET reset_entry ;EQUATES ************************************************************************* OptRTCisW = %01111111 ;And with Opts to make register 1 show W OptRTCEnable = %10111111 ;And with Opts to enable rtcc interrupt OptRTCInternal = %11011111 ;And with Opts to make rtcc internal OptRTCIntLead = %11101111 ;And with Opts to make rtcc inc on Leading edge OptRTCPrescale = %11110111 ;And with Opts to enable rtcc prescaler Opts = %11111000 ;base Options. Last 3 bits are the PreScale divider. IF CpuMhz = 100 OptPreScale = 8 IntPeriod = 217 ;will be subtracted from 256 to inc RTCC myOpts = Opts & OptRTCEnable & OptRTCInternal & OptRTCisW ENDIF IF CpuMhz = 75 OptPreScale = 8 IntPeriod = 244 ;will be subtracted from 256 to inc RTCC myOpts = Opts & OptRTCEnable & OptRTCInternal & OptRTCisW ENDIF IF CpuMhz = 50 OptPreScale = 4 IntPeriod = 217 ;will be subtracted from 256 to inc RTCC myOpts = Opts & OptRTCEnable & OptRTCInternal & OptRTCisW ENDIF ;217 is a magic number that "just works" at 50 or 100Mhz for RS232 irrespective ;of the Pre Scale. See ;http://www.sxlist.com/techref/scenix/isrcalc.asp ;to calculate other options ;217*4=868 cycles per interrupt. PP at .5us strobe via delay loops ;57,604 Hz interrupt rate 0.000,017,36 seconds per interrupt ;PreScaleBits 000=1:2, 001=1:4, 010=1:8, 011=1:16, 100=1:32, 101=1:64, 110=1:128, 111=1:256 OptPreScaleBits = ((OptPreScale>3)&1) + ((OptPreScale>7)&1) + ((OptPreScale>15)&1) + ((OptPreScale>31)&1) + ((OptPreScale>63)&1) + ((OptPreScale>127)&1) + ((OptPreScale>255)&1) IF OptPreScale > 1 IF OptPreScale <> 2<<OptPreScaleBits ;Just incase an invalid PreScale was selected ERROR 'invalid Prescale value' ELSE myOpts = myOpts & OptRTCPrescale | OptPreScaleBits ENDIF ELSE myOpts = myOpts | (255^OptRTCPreScale) ENDIF ISRRate = 0 IF myOpts & OptRTCEnable AND myOpts & OptRTCInternal MaxISRCycles = OptPreScale * IntPeriod ISRRate = cpuMHz*1000000 / MaxISRCycles ENDIF ; The following three values determine the UART baud rate. ; Baud rate = cpuMHz/(RS232ISRDiv * MaxISRCycles) ; = cpuMHz/(RS232ISRDiv * OptPreScale * IntPeriod) ; RS232BaudRate = 9600 RS232ISRDiv = ISRRate / RS232BaudRate IF RS232ISRDiv < 1 or RS232ISRDiv > 255 ERROR 'RS232BaudRate incompatible with cpuMhz and OptPreScale' ENDIF ; The start delay value must be set equal to RS232ISRDiv * 1.5 + 1 RS232StartDelay = RS232ISRDiv + (RS232ISRDiv>>1) + 1 WKPND_B = $09 WKED_B = $0A WKEN_B = $0B ;TRIS = $1F in EQU $F00 out EQU $FFF pull EQU $E00 float EQU $EFF cmos EQU $D00 ttl EQU $DFF sch EQU $CFF inten EQU $B00 intedge EQU $A00 intpend EQU $900 ;MACROS -------------------------------------------------------------------------- ; Port r[a | b | c | d | e] [in | out | pull | float | cmos | ttl] bits ; sets the port mode and configuration for standard pins ; CycleFor <count> ; if the count is less than the interrupt period, compiles a delay loop of the ; required cycles. For large delays, compiles code to set up to a 3 byte timer ; to an interrupt count equal to the delay and then waits for the counter to ; zero. ; Delay value, [usec,msec,sec,cycles] ; Calculates cycles from delay value and units (milli seconds, micro seconds, ; or seconds). Calls cyclefor to delay that number of cycles ; LookupW <12bitValue> [, <12bitValue>] ; uses IREAD (affecting M and W) to lookup values up to 12 bits indexed by W ; BinJump <reg>, <Address> [, <Address>] ; Call with the first parameter of the register to tbe tested and ; the following parameters a list of addresses to jump to based on ; the value of the register. ; More effecient than a long jump table for 4 or fewer addresses ; GotoW <Address> [, <Address>] ; Implements a jump table using space in the first low half page of memory. ; must be invoked after all <Address>'s are defined. ; Uses BinJump for less than 5 addresses ; Subroutine ; Defines SubEntryAddr from the current address or the address of a jump from ; space in the first low half page of memory as needed to ensure global ; CALL access to a subroutine. ; Push, Pop ; compile code to push and pop W from a stack setup in one register bank. ; Condition enum (IsZero,Eq,Lt,LE,IsNotZero,NE,Gt,GE,EqN,LtN,LEN,NEN,GtN,GEN) ; enum values ending in N indicate that the second operand will be a constant ; Condition := [<reg>, <enum> | <reg>, <enum>, <reg> | <reg>, <enum>, <constant> ] ; Skz <reg>, [IsZero | IsNotZero] ; Generates a skip if the reg is zero or not zero ; Skc <reg1>, [Eq | Lt | LE | NE | Gt | GE], <reg2> ; Generates a skip if reg1 compaires as specified to reg2 ; Skc <reg>, [EqN | LtN | LEN | NEN | GtN | GEN], <constant> ; Generates a skip if reg compaires as specified to constant ; StackPUSH, StackPOP, StackTOS and stack1... ; Provide a compile time stack to record and retrieve the addresses of ; locations were jumps need to be compiled once the jump-to address is ; known. Used by the following macros: ; Repeat ; <statements> ; [forever | while <condition> | until <condition>] ; ; compiles Skz or Skc with jumps to implement a structured loop ; DoIf <condition> ; <statements> ; [ ; DoElseIf <condition> ; <statements> ; ]... ; [ ; DoElse ; <statements> ; ] ; DoEndIf ; ; Compiles Skz or Skc with jumps to implement a structured conditional ; As many DoElseIf statements as desired may be included because each DoElseIf ; links to the next one at run time so that if the first DoElseIf condition ; is true, after its statements a jump will be compiled that will jump to ; the simular jump after the next DoElseIf statements. To avoid this extra ; run time, use DoSelect. ; DoSelect ; [ ; DoCase <condition> ; <statements> ; ]... ; [ ; DoCaseElse ; <statements> ; ] ; DoEndSelect ; ; Compiles Skz or Skc with jumps to implement a structured conditional ; A limited number of DoCase statments can be compiled because each ; case compiles a jump to the end of the select after the statements ; following the case condition and recording the position were these ; jumps must be org'd takes up space on the "stack" provided by ; StackPUSH, StackPOP and stack1...15 ;See lable "Main" for start of examples porthelp MACRO ERROR 'USAGE: port r[a,b,c,d,e] [in,out,pull,float,cmos,ttl] bits' ENDM _PortMode = $1F PortMode MACRO 1 noexpand ; IF _PortMode <> \1 IF CpuPins > 28 _PortMode = \1 | $10 expand mov w,#_PortMode mov m,w noexpand ELSE _PortMode = \1 expand mov m,#_PortMode noexpand ENDIF ; ENDIF ENDM port MACRO 3 noexpand IF \1=RA OR \1=RB OR (CpuPins>18 AND \1=RC) OR (CpuPins > 28 AND (\1=RD OR \1=RE)) ELSE porthelp ENDIF IF \2=in OR \2=out OR \2=pull OR \2=float OR \2=cmos OR \2=ttl OR (\1=RB AND (\2=sch OR \2=inten OR \2=intedge OR \2=intpend)) ELSE porthelp ENDIF PortMode (\2 / $100) _PortMask = (\2//$100)^\3 expand mov !\1, #_PortMask noexpand ENDM mynop MACRO noexpand page $ ENDM nsec EQU -9 usec EQU -6 msec EQU -3 sec EQU 1 cycles EQU 0 cyclefor MACRO 1 noexpand _cycles = \1 _temp = 0 IF _cycles - 10 > IntPeriod OR _cycles < 0 _cycles = _cycles - 10 _ints3 = $FF - (_cycles/(IntPeriod*$10000)) _ints2 = $FF - (_cycles/(IntPeriod*$100)//$100) _ints1 = $FF - (_cycles/IntPeriod//$100) IF Timers > $0F ; ERROR 'Timers must be in bank 0' bank Timers ENDIF expand clr TimerAccL mov TimerAccT, #_ints3 mov TimerAccH, #_ints2 mov TimerAccL, #_ints1 mov w,#$02 clrb TimerFlag sb TimerFlag sub 2,w noexpand _cycles = _cycles // IntPeriod ELSE _temp = $ // 4 IF _temp = 2 IF _cycles < 5 REPT _cycles expand mynop noexpand ENDR _cycles = 0 ELSE expand mynop noexpand _cycles = _cycles -1 ENDIF ENDIF IF _temp = 1 IF _cycles < 7 REPT _cycles expand mynop noexpand ENDR _cycles = 0 ELSE _cycles = _cycles - 2 _loops = _cycles / 5 expand mov w, #_loops page $+1 decsz 1 jmp $-1 noexpand _cycles = _cycles // 5 ;cycles left over ENDIF ENDIF IF _cycles > 5 _cycles = _cycles - 1 _loops = _cycles / 5 expand mov w, #_loops decsz 1 clrb 2.1 noexpand _cycles = _cycles // 5 ;cycles left over ENDIF IF _cycles > 0 REPT _cycles expand mynop noexpand ENDR ENDIF ENDIF ENDM delayhelp MACRO ERROR 'USAGE: delay value, [usec,msec,sec,cycles]' ENDM delay MACRO 2 noexpand ;Calculates cycles from delay value and units (milli seconds, micro seconds, or seconds) ;calls cyclefor to delay that number of cycles IF (\2=nsec OR \2=usec OR \2=msec OR \2=sec) AND (\1<1000 AND \1>0) IF \2=sec _cycles = (\1 * 100000000 / (100/CpuMhz)) ENDIF IF \2=msec _cycles = (\1 * 1000000 / (1000/CpuMhz)) ENDIF IF \2=usec _cycles = (\1 * 1000 / (1000/CpuMhz)) ENDIF IF \2=nsec _cycles = (\1 * 10 + 5 / (10000/CpuMhz)) ENDIF IF \2=cycles _cycles = \1 ENDIF IF _cycles = 0 expand ;delay less than one cycle at this processor speed' noexpand ELSE cyclefor _cycles ENDIF ELSE delayhelp ENDIF ENDM ConditionBase equ $0 IsZero equ ConditionBase + %0000 Eq equ ConditionBase + %0001 Lt equ ConditionBase + %0010 ;2 LE equ ConditionBase + %0011 ;3 IsNotZero equ ConditionBase + %0100 ;8 NE equ ConditionBase + %0101 ;9 GE equ ConditionBase + %0110 ;10 Gt equ ConditionBase + %0111 ;11 EqN equ ConditionBase + %1001 LtN equ ConditionBase + %1010 ;2 LEN equ ConditionBase + %1011 ;3 NEN equ ConditionBase + %1101 ;9 GEN equ ConditionBase + %1110 ;10 GtN equ ConditionBase + %1111 ;11 ; dabc SkMskConst equ %1000 ;column "d" (mask 8) shows which compare registers with constants and which with registers. SkMskSwap equ %0100 ;column "a" (mask 4) shows which are exact opposites of one another. ; e.g. Eq is the opposite of NE, Lt of GE, LE of Gt SkMskNeq equ %0010 ;column "b" (mask 2) shows which are inequalities and which are equalitites SkMskC equ %0001 ;column "c" (mask 1) differentiates the inequalities SkMskFlip equ %0101 ;Xor with condition to flip the inequality around X op Y becomes Y op X Skc MACRO 3 ; noexpand ;Usage: Skc pX, Condition, pY pX = \1 tst = \2 pY = \3 SkcBank = 0 IF tst & SkMskConst IF pX = WReg AND ((tst & SkMskNeq) > 1) expand mov temp, w ;WARNING! temp modified in macro. noexpand pX = temp ENDIF IF tst = GtN OR tst = LEN expand mov w, #(pY + 1) noexpand ;if tst was GtN its now GE if it was LEN its Lt tst = (tst ^ SkMskC) & ~SkMskConst ELSE ; tst = GEN, LtN, NEN, EqN IF pX = WReg pX = pY ELSE expand mov w, #pY noexpand tst = tst & ~SkMskConst ENDIF ENDIF pY = WReg ENDIF IF pX = WReg IF (tst & SkMskNeq) > 1 ;Flip the operation around. tst = tst ^ SkMskFlip ENDIF pX = pY pY = WReg ENDIF ;At this point, pX is NOT w IF pY <> WReg IF pY>$0F ;are we about to access a non-global register? expand bank pY ;non-global noexpand SkcBank = pY / $10 ENDIF IF tst = Gt OR tst = LE expand mov w, ++pY noexpand ;if tst was Gt its now GE if it was LE its Lt tst = tst ^ SkMskC ELSE ; tst = GE, Lt, Eq, NE expand mov w, pY noexpand ENDIF pY = WReg ENDIF ;At this point, pY is in W. pX is a register or a constant IF pX>$0F AND (pX / $10) <> SkcBank AND tst & SkMskConst = 0 ;are we about to access a non-global register in a new bank? expand bank pX ;non-global noexpand ENDIF IF tst = Eq OR tst = NE OR tst = EqN OR tst = NEN IF tst = EqN OR tst = NEN expand xor w, #pX noexpand tst = tst & ~SkMskConst ELSE expand xor w, pX noexpand ENDIF IF tst = Eq expand sz noexpand ELSE expand snz noexpand ENDIF ELSE IF CpuCarry IF tst = Gt OR tst = LE expand clc noexpand ELSE expand stc noexpand ENDIF ENDIF expand mov w, pX - w noexpand IF tst = Lt OR (tst = LE AND CpuCarry) expand snc noexpand ELSE expand sc noexpand ENDIF ENDIF IF (tst = Gt OR tst = LE) AND NOT CpuCarry expand snz noexpand ENDIF IF tst = Gt AND NOT CpuCarry expand skip noexpand ENDIF ENDM Skz MACRO 2 ;Usage: Skz register, [IsZero | IsNotZero] noexpand IF \1>$0F expand bank \1 ;non-global noexpand ENDIF expand test \1 noexpand IF \2 = IsZero expand sz noexpand ELSE IF \2 = IsNotZero expand snz noexpand ELSE error 'Usage: Skz register, [IsZero | IsNotZero]' ENDIF ENDIF ENDM RepeatLabel5 = 0 RepeatLabel4 = 0 RepeatLabel3 = 0 RepeatLabel2 = 0 RepeatLabel = 0 PushRepeat MACRO noexpand RepeatLabel5 = RepeatLabel4 RepeatLabel4 = RepeatLabel3 RepeatLabel3 = RepeatLabel2 RepeatLabel2 = RepeatLabel ENDM PopRepeat MACRO noexpand RepeatLabel = RepeatLabel2 RepeatLabel2 = RepeatLabel3 RepeatLabel3 = RepeatLabel4 RepeatLabel4 = RepeatLabel5 RepeatLabel5 = 0 ENDM Repeat MACRO noexpand ;incase expand was already on. PushRepeat expand RepeatLabel = $ noexpand ENDM Until MACRO noexpand IF \0 = 2 Skz \1,\2 ELSE Skc \1,\2,\3 ENDIF expand jmp @RepeatLabel noexpand PopRepeat ENDM While MACRO noexpand IF \0 = 2 Skz \1,\2^SkMskSwap ELSE Skc \1,\2^SkMskSwap,\3 ENDIF expand jmp @RepeatLabel noexpand PopRepeat ENDM Forever MACRO noexpand ;incase expand was already on. expand jmp @RepeatLabel noexpand PopRepeat ENDM StackTOS = -1 Stack1 = 0 Stack2 = 0 Stack3 = 0 Stack4 = 0 Stack5 = 0 Stack6 = 0 Stack7 = 0 Stack8 = 0 Stack9 = 0 Stack10 = 0 Stack11 = 0 Stack12 = 0 Stack13 = 0 Stack14 = 0 Stack15 = 0 StackPush MACRO 1 IF Stack8 = 0 IF Stack4 = 0 IF Stack2 = 0 IF Stack1 = 0 Stack1 = StackTOS ELSE Stack2 = StackTOS ENDIF ELSE IF Stack3 = 0 Stack3 = StackTOS ELSE Stack4 = StackTOS ENDIF ENDIF ELSE IF Stack6 = 0 IF Stack5 = 0 Stack5 = StackTOS ELSE Stack6 = StackTOS ENDIF ELSE IF Stack7 = 0 Stack7 = StackTOS ELSE Stack8 = StackTOS ENDIF ENDIF ENDIF ELSE IF Stack12 = 0 IF Stack10 = 0 IF Stack9 = 0 Stack9 = StackTOS ELSE Stack10 = StackTOS ENDIF ELSE IF Stack11 = 0 Stack11 = StackTOS ELSE Stack12 = StackTOS ENDIF ENDIF ELSE IF Stack14 = 0 IF Stack13 = 0 Stack13 = StackTOS ELSE Stack14 = StackTOS ENDIF ELSE IF Stack15 = 0 Stack15 = StackTOS ELSE expand ; ERROR Stack Overflow noexpand ENDIF ENDIF ENDIF ENDIF StackTOS = \1 ENDM StackPop MACRO 0 IF Stack8 = 0 IF Stack4 = 0 IF Stack2 = 0 IF Stack1 = 0 expand ; ERROR Stack Underflow noexpand ELSE StackTOS = Stack1 Stack1 = 0 ENDIF ELSE IF Stack3 = 0 StackTOS = Stack2 Stack2 = 0 ELSE StackTOS = Stack3 Stack3 = 0 ENDIF ENDIF ELSE IF Stack6 = 0 IF Stack5 = 0 StackTOS = Stack4 Stack4 = 0 ELSE StackTOS = Stack5 Stack5 = 0 ENDIF ELSE IF Stack7 = 0 StackTOS = Stack6 Stack6 = 0 ELSE StackTOS = Stack7 Stack7 = 0 ENDIF ENDIF ENDIF ELSE IF Stack12 = 0 IF Stack10 = 0 IF Stack9 = 0 StackTOS = Stack8 Stack8 = 0 ELSE StackTOS = Stack9 Stack9 = 0 ENDIF ELSE IF Stack11 = 0 StackTOS = Stack10 Stack10 = 0 ELSE StackTOS = Stack11 Stack11 = 0 ENDIF ENDIF ELSE IF Stack14 = 0 IF Stack13 = 0 StackTOS = Stack12 Stack12 = 0 ELSE StackTOS = Stack13 Stack13 = 0 ENDIF ELSE IF Stack15 = 0 StackTOS = Stack14 Stack14 = 0 ELSE StackTOS = Stack15 Stack15 = 0 ENDIF ENDIF ENDIF ENDIF ENDM noexpand StackPUSH 1 StackPUSH 2 StackPUSH 3 StackPUSH 4 StackPUSH 5 StackPUSH 6 StackPUSH 7 StackPUSH 8 StackPUSH 9 StackPUSH 10 StackPUSH 11 StackPUSH 12 StackPUSH 13 StackPUSH 14 StackPUSH 15 StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP StackPOP expand link MACRO 2 :temp = $ org \1 ; go back jmp @(\2) ;<- jmp to here org :temp ; come forward ENDM DoIf MACRO IF \0 = 2 Skz \1,\2 ELSE Skc \1,\2,\3 ENDIF ;***Save place to link failure of this test to the Else, ElseIf or EndIf code StackPUSH $ ;save space here for a jmp expand ;mp +:FAIL noexpand org $+2 ENDM DoElseIf MACRO ;***If there is a previous succeed place, link it to this one IF (StackTOS >> 24) > 0 link (StackTOS - (StackTOS >> 24)), $ ENDIF ;***Setup place to Link the prev DoIf or DoElseIf success code out to the DoEndIf nDoElseIf:S = $ expand ;mp +:SUCCEED noexpand org $+2 ;***Link the last DoIf or DoElseIf fail to the DoElseIf code expand ;:FAIL noexpand link (StackTOS & $FFFFFF), $ IF \0 = 2 Skz \1,\2 ELSE Skc \1,\2,\3 ENDIF ;***Save place to link failure of this test to the Else, ElseIf or EndIf code StackTOS = ($ - nDoElseIf:S)<<24 + $ expand ;mp +:FAIL noexpand org $+2 ENDM DoElse MACRO ;***If there is a previous succeed place, link it to this one IF (StackTOS >> 24) > 0 link (StackTOS - (StackTOS >> 24)), $ ENDIF ;***Setup place to Link the prev DoIf or DoElseIf success code out to the DoEndIf nDoElse:S = $ expand ;mp +:SUCCEED noexpand org $+2 ; and leave space for it ;***Link the last DoIf or DoElseIf fail to the DoElse code expand ;:FAIL noExpand link StackTOS, $ StackTOS = nDoElse:S ENDM DoEndIf MACRO ;***If there is a previous succeed place, link it to this one IF (StackTOS >> 24) > 0 link (StackTOS - (StackTOS >> 24)), $ ENDIF expand :SUCCEED ;DoEndIf :FAIL ;DoEndIf noexpand link (StackTOS & $FFFFFF), $ StackPOP ENDM DoSelect:Level = 0 DoCase:Count = 0 DoCase:F = 0 DoSelect MACRO StackPUSH DoCase:Count - 1 ;can't push a zero DoCase:Count = 0 StackPUSH DoCase:F + 1 ;can't push a zero DoCase:F = 0 DoSelect:Level = DoSelect:Level + 1 ENDM DoCase MACRO DoCase:Count = DoCase:Count - 1 IF DoCase:Count < -1 ;***Setup place to Link the prev Case success code out to the end StackPUSH $ expand ;mp +:SUCCEED noexpand org $+2 ;***Link the last fail to this DoCase test code link DoCase:F, $ expand ;:FAIL noexpand ENDIF IF \0 = 2 Skz \1,\2 ELSE Skc \1,\2,\3 ENDIF ;***Save place to link failure of this test to the Else, ElseIf or EndIf code DoCase:F = $ expand ;mp +:FAIL noexpand org $+2 ENDM DoCaseElse MACRO ;***Setup place to Link the prev DoCase success code out to the DoCaseEnd StackPUSH $ expand ;mp +:SUCCEED noexpand org $+2 ;***Link the last fail to the DoCaseElse code link DoCase:F, $ DoCase:F = 0 expand ;:FAIL noExpand ENDM DoCaseEnd MACRO ;***If there is a previous succeed place, link it to this one IF DoCase:Count < 0 REPT 0 - DoCase:Count link StackTOS, $ StackPOP ENDR ENDIF expand :SUCCEED ;DoCaseEnd noexpand IF DoCase:F > 0 link DoCase:F, $ expand :FAIL ;DoCaseEnd noexpand ENDIF DoSelect:Level = DoSelect:Level - 1 DoCase:F = StackTOS - 1 StackPOP DoCase:Count = StackTOS + 1 ;correct for -1 when pushed. StackPOP ENDM doifadr = 0 doendifadr = 0 doelsifadr = 0 doifl = 0 odoif MACRO noexpand doifl = doifl + 1 IF doifl > 2 error 'Only 2 levels of nested conditions supported by doif macro' ENDIF doelsifadr = doelsifadr * 2048 IF \0 = 2 Skz \1,\2 ELSE Skc \1,\2,\3 ENDIF ;***Save place to link failure of this test to the Else, ElseIf or EndIf code expand doifadr = doifadr * 2048 + $ ;save space here for a jmp noexpand ;figure out where the jmp will be from org $+2 ; and leave space for it ENDM oDoElse MACRO noexpand IF doifl < 1 error 'DoElse outside of DoIf/DoEndIf block' ENDIF IF doelsifadr > 0 error 'DoElse can not follow DoElseIf' ENDIF ;***Link the last DoIf or DoElseIf fail to the DoElse code ;remember where we were, ;go back to where the jmp needs to be ;jmp to where we were ;go back to where we were expand doendifadr = doendifadr * 2048 + $ org doifadr // 2048 ; go back jmp @(doendifadr // 2048)+2; do the jmp org doendifadr // 2048 ; come forward doendifadr = doendifadr / 2048 ;***Setup place to Link the DoIf or DoElseIf success code out to the DoEndIf doifadr = (doifadr & ~1023) + $ ;save space here for a jmp noexpand ;figure out where the jmp will be from org $+2 ; and leave space for it ENDM oDoElseIf MACRO noexpand IF doifl < 1 error 'DoElseIf outside of DoIf/DoEndIf block' ENDIF ;***Setup place to Link the prev DoIf or DoElseIf success code out to the DoEndIf doelsifadr = (doelsifadr & ~1023) + $ ;save space here for a jmp noexpand ;figure out where the jmp will be from org $+2 ; and leave space for it ;***Link the last DoIf or DoElseIf fail to the DoElseIf code expand doendifadr = doendifadr * 2048 + $ org doifadr // 2048 ; go back jmp @(doendifadr // 2048); do the jmp org doendifadr // 2048; come forward doendifadr = doendifadr / 2048 noexpand IF \0 = 2 Skz \1,\2 ELSE Skc \1,\2,\3 ENDIF ;***Link the prev DoIf or DoElseIf success code out to the DoEndIf expand dotemp = $ org doelsifadr // 2048; go back jmp @(dotemp); do the jmp org dotemp; come forward noexpand ;Sadly, if we link here, we can't use doElse after doElseIf because there is no ; way to differentiate a prior success from a lack of prior success... the ; else code is always executed. ;If we stack up all the success end addresses and link them in doEndIf, there is ; a limit to the number of doElseIf's that can be supported. ;The new DoIf, DoElseIf, DoElse, DoEndIf macros solve this. ;***Save place to link failure of this test to the Else, ElseIf or EndIf code expand doifadr = (doifadr & ~1023) + $ ;save space here for a jmp noexpand ;figure out where the jmp will be from org $+2 ; and leave space for it ENDM oDoEndIf MACRO noexpand IF doifl < 1 error 'DoEndIf outside of DoIf/DoEndIf block' ENDIF doelsifadr = doelsifadr / 2048 doifl = doifl - 1 ;remember where we were, ;go back to where the jmp needs to be ;jmp to where we were ;go back to where we were expand doendifadr = doendifadr * 2048 + $ org doifadr // 2048 ; go back jmp @(doendifadr // 2048) ; do the jmp org doendifadr // 2048 ; come forward doendifadr = doendifadr / 2048 doifadr = doifadr / 2048 noexpand ENDM Push MACRO 1 noexpand parm = \1 expand DecBufPtr StackPtr ;could use incsz rather than inc to avoid modifying Z noexpand IF Parm = Wreg OR parm = fsr IF parm <> fsr expand mov fsr, w ;fsr could be anything (due to bank etc..) so use for parm noexpand parm = WReg ENDIF expand mov w, StackPtr ;get the StackPtr into w xor fsr, w ;swap w with fsr xor w, fsr xor fsr, w mov ind, w ;store w to Top Of Stack. noexpand ELSE expand mov fsr, StackPtr ;W used noexpand IF parm > $0F expand bank parm mov w, parm bank Stack mov ind, w noexpand ELSE expand mov ind, parm noexpand ENDIF ENDIF ENDM Pop MACRO 1 noexpand expand mov fsr, StackPtr ;W used mov w, ind noexpand IF \1 > $0F expand bank \1 noexpand ENDIF expand mov \1,w ;\1 is now the StackPtr IncBufPtr StackPtr ;point to valid data at new Top Of Stack noexpand ENDM LookupW MACRO noexpand ;Defines an in-line DW/IREAD lookup table returns the 12 bit value indexed by W in M:W. ;Affects M and W. expand jmp @$+\0+2 ; IF \0 _LookupWTableBegin = $ noexpand REPT \0 expand DW \% noexpand ENDR _LookupWTableEnd = $ expand IF _LookupWTableBegin & $FF <> 0 mov temp,w ;WARNING temp modified by macro mov w, #_LookupWTableBegin & $FF add w, temp ;offset from start of table ENDIF mov m,#_LookupWTableBegin>>8 IF (_LookupWTableBegin / $100) <> (_LookupWTableEnd / $100) snc ;correct if carry mov m,#_LookupWTableBegin>>8+1 ENDIF iread ;Retrieve data noexpand ;{use the data} ENDM Subroutine MACRO noexpand ;Usage: Define a Global lable, ; Execute Subroutine macro, ; Assign :Entry to the value now set in SubEntryAddr. ; Continue the definition of the subroutine. ; Elsewhere, call @Sub:Entry where Sub is the global lable ; you defined for the subroutine. ;Example ;SUB1 Subroutine ;:Entry = SubEntryAddr ;.... ; Call SUB1:Entry _SubAddr = $ IF (_SubAddr & $100) <> 0 org LowHalfPage SubEntryAddr = $ ;if we got here, the pagesel bits must be set for here IF ($ / $100) = (_SubAddr / $100) expand jmp _SubAddr noexpand ELSE expand jmp @_SubAddr noexpand ENDIF LowHalfPage = $ IF $+1 > HighHalfPage ERROR 'Out of LowHalfPage Space' ENDIF org _SubAddr ELSE ;The subroutine was already starting in a LowHalfPage SubEntryAddr = $ ENDIF ENDM binjump MACRO ;Call with the first parameter of the register to tbe tested and ;the following parameters a list of addresses to jump to based on ;the value of the register. ;More effecient than a long jump table for 4 or fewer addresses noexpand if \0 > 5 if \0 = 6 expand jb \1.2, @\6 ;=4 noexpand binjump \1,\2,\3,\4,\5 else expand jb \1.2, @:2Set ;>4 ;@$+16 noexpand binjump \1,\2,\3,\4,\5 expand :2Set noexpand if \0 > 7 if \0 > 8 binjump \1,\6,\7,\8,\9 else binjump \1,\6,\7,\8 endif else binjump \1,\6,\7 endif endif else ;5 or less if \0 > 3 if \0 = 4 expand jb \1.1, @\4 ;=2 or 6 noexpand binjump \1,\2,\3 else expand jb \1.1, @:1Set ;>2 or >6; $+8 noexpand binjump \1,\2,\3 expand :1Set noexpand binjump \1,\4,\5 endif else expand jnb \1.0,@\2 jmp @\3 noexpand endif endif endm GotoW MACRO noexpand ;must be invoked after all parameters are defined ;i.e. no forward references. ;if you manually expand the macro, forward refs may work? _SaveAddr = $ _GotoWPage = _SaveAddr / $200 REPT \0 IF (\% / $200) <> (_SaveAddr / $200) _GotoWPage = (\% / $200) ; ENDIF ENDR IF _GotoWPage <> (_SaveAddr / $200) OR ((_SaveAddr // $200) > $FF) ;has to be a long jump table IF \0 > 127 ERROR 'Long jumps must be used and no more than 127 entries can be supported' ENDIF IF \0 = 2 binjump WReg, \1, \2 EXITM ENDIF IF \0 = 3 binjump WReg, \1, \2, \3 EXITM ENDIF IF \0 = 4 binjump WReg, \1, \2, \3, \4 EXITM ENDIF IF LowHalfPage + (\0*2) + 1 > HighHalfPage ERROR 'Out of LowHalfPage Space' ENDIF org LowHalfPage _GotoWPage = 0 ELSE IF \0 > 255 ERROR 'No more than 255 entries can be supported' ENDIF IF LowHalfPage + \0 + 1 > HighHalfPage ERROR 'Out of LowHalfPage Space' ENDIF ENDIF expand _GotoWTableBegin = $ add PC,W ;jump to the jump noexpand REPT \0 IF _GotoWPage = 0 expand jmp @\% noexpand ELSE expand jmp \% noexpand ENDIF ENDR IF _GotoWPage = 0 ;its a long jump table LowHalfPage = $ org _SaveAddr expand clc rl WReg ;need long jumps ;WARNING: Insure OPTION:RWT = 0 jmp @_GotoWTableBegin noexpand ENDIF ENDM DecBufPtr MACRO 1 noexpand ;decrements buffer pointers and keeps them within one bank IF CPUPins > 28 expand dec \1 setb \1.5 noexpand ELSE expand dec \1 setb \1.4 noexpand ENDIF ENDM IncBufPtr MACRO 1 noexpand ;increments buffer pointers and keeps them within one bank IF CPUPins > 28 expand inc \1 setb \1.5 noexpand ELSE expand inc \1 setb \1.4 clrb \1.5 noexpand ENDIF ENDM mmov Macro 3 noexpand _bank = 0 rept \3 IF ((\2 + %) / $10) <> _bank _bank = (\2 + %) / $10 expand bank (\2 + %) noexpand ENDIF expand mov w, (\2 + %) noexpand IF ((\1 + %) / $10) <> _bank _bank = (\1 + %) / $10 expand bank (\1 + %) noexpand ENDIF expand mov (\1 + %), w noexpand ENDR ENDM ;PORTS -------------------------------------------------------- IF CpuPins > 28 ;CPUPins = 48 or 52 IF CpuPins > 48 ;CPUPins = 52 ELSE ;CPUPins = 48 ENDIF ELSE ;CPUPins = 18 or 28 IF CpuPins > 18 ;CPUPins = 28 ELSE ;CPUPins = 18 ENDIF ENDIF rbIntMask = 0 ;VARIABLES **************************************************** ;ds allocates registers starting from the register number ; specifed by the org address which does not relate to a ; program memory address ;GLOBAL VARIABLES --------------------------------------------- org GPRegOrg Temp ds 1 flags ds 1 ;general flag register RS232Rx_flag = flags.0 RS232RxFrameErr = flags.1 TimerFlag = flags.2 ;timer rollover flag Timers = $ ;timer TimerAccL ds 1 ;timer accumulator low TimerAccH ds 1 ;timer accumulator high TimerAccT ds 1 ;timer accumulator top watch TimerFlag, 1, ubin watch TimerAccL, 24, uhex StackPtr ds 1 ;Stack watch StackPtr,8,UHEX IF $ > $10 ERROR 'out of gobal variable space' ENDIF ;BANK 0 VARIABLES --------------------------------------------- org $10 ;$10 to $1F - limit 16 bytes - bank 0 bank0 = $ ;place variables and watches here VPSSlice ds 1 VPSCount ds 1 IntI ds 1 watch IntI,8,UHEX IntJ ds 1 watch IntJ,8,UHEX errat ds 1 watch errat,8,UHEX IF $ > $20 ERROR 'out of variable space' ENDIF ;BANK 1 VARIABLES --------------------------------------------- org $30 ;$30 to $3F - limit 16 bytes - bank 1 bank1 = $ ;place variables here IF $ > $40 ERROR 'out of variable space' ENDIF ;BANK 2 VARIABLES --------------------------------------------- org $50 ;$50 to $5F - limit 16 bytes - bank 2 bank2 = $ ;place variables here IF $ > $60 ERROR 'out of variable space' ENDIF ;BANK 3 VARIABLES --------------------------------------------- org $70 ;$70 to $7F - limit 16 bytes - bank 3 bank3 = $ ;place variables here IF $ > $80 ERROR 'out of variable space' ENDIF ;BANK 4 VARIABLES --------------------------------------------- org $90 ;$90 to $9F - limit 16 bytes - bank 4 bank4 = $ ;place variables here IF $ > $A0 ERROR 'out of variable space' ENDIF ;BANK 5 VARIABLES --------------------------------------------- org $B0 ;$B0 to $BF - limit 16 bytes - bank 5 bank5 = $ ;place variables here IF $ > $C0 ERROR 'out of variable space' ENDIF ;BANK 6 VARIABLES --------------------------------------------- org $D0 ;$D0 to $DF - limit 16 bytes - bank 6 bank6 = $ ;place variables here IF $ > $E0 ERROR 'out of variable space' ENDIF ;BANK 7 VARIABLES --------------------------------------------- org $E0 ;$E0 to $EF - limit 16 bytes - bank 7 bank7 = $ Stack ds 16 ;Stack ;place variables here IF $ > $100 ERROR 'out of variable space' ENDIF ISR ;(Interrupt Service Routine) ****************************** ;put your ISR (or just a jump to it) here. ;org is now being used to set the starting point in code memory org 0 jmp @VPS :Out ;--------------------------------------------------------- ;The Virtual Peripherals are expected to jump back ; to @ISR:Out when done IF CpuLongDate <> 1 ; << added to correct bug in 9818 chips mov m,#WKEN_B ;Enable Port B interrupts mov !rb,#rbIntMask mov m,#TRIS ;Point mode back to ports ; end bug fix >> ENDIF mov !option, #myOpts mov w,#-IntPeriod ;1 retiw ;3 ;retiw adds w to RTCC which avoids ;jitter due to variations in ISR path or latency. TABLES ;******************************************************* ;Jump tables are assembled here by the SUBROUTINE, ; and GOTOW macros. LowHalfPage = $ HighHalfPage = $100 org HighHalfPage ;Leave space in the first LowHalfpage ;STARTUP ****************************************************** reset_entry ;must be in the first page jmp @SETUP org $+2 ;leave room for the debugger ;Virtual Peripherals ****************************************** ;The Virtual Peripherals are expected to jump back to @ISR:Out ; when done UART ;Universal Asynchronous Receiver Transmitter ;(UART) Virtual Peripheral------------------------------------- ;etc jmp @ISR:Out PWM ;Pulse Width Modulation Virtual Peripheral ---------------- ;etc jmp @ISR:Out VPS ;Virtual Peripheral Sequencer------------------------------ ;Time slice kernal goes here ;Positioned after the Virtual Peripherals so the GotoW avoids ; forward references. mov w, --VPSSlice snz mov w, #VPSCount mov VPSSlice, w GotoW UART, PWM ;,etc... SETUP ;******************************************************** ; IO PORTS ---------------------------------------------------- bank 0 ;mode (m) defaults to $0F or $1F - !r{a,b,c} is the data ;direction register. Ports default to input, no pullup, ttl, ;on all pins IF CPUPins > 28 ; SX52 Port setup ; PortMode TRIS ELSE ; SX28 Port setup ; PortMode TRIS ENDIF ; RAM - reset all ram banks ; GLOBAL RAM -------------------------------------------------- mov fsr,#GPRegOrg :gloop clr ind ;clear register pointed to by fsr inc fsr sb fsr.4 jmp @:gloop ;until fsr rolls over from $0F ; RAM BANKS --------------------------------------------------- :loop IF CpuPins <= 28 setb fsr.4 ;avoid control registers on smaller chips ENDIF clr ind ;set register pointed to by fsr to zero ijnz fsr,@:loop ;until fsr rolls over from $FF ;SUBROUTINES ************************************************** ;with luck, the ISR and VPS will push this into a new ; LowHalfPage. Subroutines can be rearranged manually to help ; the macros save memory. SUB1 Subroutine ;============================================== :Entry = SubEntryAddr nop ;do stuff jc @:Out :test djnz $10,@:test :Out MAIN ;PROGRAM ************************************************* binjump 9,1,2,3,4,$500 binjump 9,1,2,3,4,5,6 GotoW MAIN, $800, ISR, SUB1:Entry, $801 ; GotoW Main, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800 ; GotoW Main, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800, $100, $200, $300, $400, $500, $600, $700, $800 LookupW Main,ISR,SUB1 call @SUB1:Entry ;global call to subroutine ; call SUB1 ;local call to subroutine clr IntI :zeroloop test IntI jnz :notzero :zero mov errat,#$ Skz IntI,IsZero jmp :bogus mov errat,#$ Skz IntI,IsNotZero skip jmp :bogus djnz IntI, :zeroloop jmp :done :notzero mov errat,#$ Skz IntI,IsZero skip jmp :bogus mov errat,#$ Skz IntI,IsNotZero jmp :bogus djnz intI,:zeroloop :done clr IntI :outsideloop clr IntJ :insideloop mov w, IntI mov w, IntJ-w snc jmp :ILTJOut :ILTJ ;yess mov errat,#$ Skc IntI,NE,IntJ jmp :bogus mov errat,#$ Skc IntI,Lt,IntJ jmp :bogus mov errat,#$ Skc IntI,LE,IntJ jmp :bogus ;nos mov errat,#$ Skc IntI,Eq,IntJ skip jmp :bogus mov errat,#$ Skc IntI,Gt,IntJ skip jmp :bogus mov errat,#$ Skc IntI,GE,IntJ skip jmp :bogus :ILTJOut mov w, IntJ mov w, IntI-w sz jmp :IEQJOut ;IEQJ ;yess mov errat,#$ Skc IntI,Eq,IntJ jmp :bogus mov errat,#$ Skc IntI,LE,IntJ jmp :bogus mov errat,#$ Skc IntI,GE,IntJ jmp :bogus ;nos mov errat,#$ Skc IntI,NE,IntJ skip jmp :bogus mov errat,#$ Skc IntI,Lt,IntJ skip jmp :bogus mov errat,#$ Skc IntI,Gt,IntJ skip jmp :bogus :IEQJOut mov w, IntI mov w, IntJ-w sc jmp :IGTJOut :IGTJ ;yess mov errat,#$ Skc IntI,NE,IntJ jmp :bogus mov errat,#$ Skc IntI,Gt,IntJ jmp :bogus mov errat,#$ Skc IntI,GE,IntJ jmp :bogus ;nos mov errat,#$ Skc IntI,Eq,IntJ skip jmp :bogus mov errat,#$ Skc IntI,Lt,IntJ skip jmp :bogus mov errat,#$ Skc IntI,LE,IntJ skip jmp :bogus :IGTJOut djnz IntJ,:insideloop djnz IntI,:outsideloop DoIf 1,lt,0 ;1=WReg or RTCC. RTCC is only going to get used in ISRs so just assume its W clr 1 doendif clr 2 doif 2,eq,0 ;Bank 0 registers so no bank but do load W. clr 3 doendif clr 4 doif 5,IsZero clr 6 doendif clr 7 repeat clr 8 repeat xor 8, 8 until 9, LEN, 8 until 9,IsNotZero repeat clr 10 while 11,IsZero repeat clr 12 forever doif 16,eq,17 ;two registers in same (non zero) bank. One bank needed. clr 18 doendif clr 19 doif 20,eq,$30 ;two registers in two different banks. clr 21 doendif clr 22 doif 23,eq,24 clr 25 doelseif 26,lt,27 clr 28 doelse clr 28 doendif clr 29 push WReg push 30 pop 31 pop PC doif 32,ltN,33 clr 34 doelseif 35,gtN,36 clr 37 doelseif 37,gtN,38 doendif clr errat doif 1, LtN, 0 doif 2, Lt, 33 doendif doendif ;And now, lets KICK IT UP A BIT!!! DoSelect DoCase 23,eq,24 clr 25 DoCase 26,eq,27 clr 28 DoSelect DoCase 29,eq,30 clr 31 DoIf 32,EqN,32 clr 33 DoElseIf 34,Lt,35 clr 36 DoElse clr 37 DoEndIf DoCase 27,eq,25 clr 25 DoCaseElse clr 25 DoCaseEnd DoCaseElse clr 25 DoCaseEnd :bogus break end
file: /Techref/scenix/keymacs.src, 40KB, , updated: 2023/5/11 11:06, local time: 2024/10/4 11:37,
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