;SAsmCond.src by James Newton ;Structured conditionals for SASM (SXKey 2.0 version) ;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. ; ;expects CPUCarry = 0 ;or 1 ; a variable called temp that can be used for some types of comparisons ;MACROS -------------------------------------------------------------------------- ; 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 ; 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 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 local SkcBank,pX,tst,pY noexpand ;Usage: Skc pX, Condition, pY pX = \1 tst = \2 pY = \3 SkcBank = 0 IF tst & SkMskConst IF pX == WReg && ((tst & SkMskNeq) > 1) expand mov temp, w ;WARNING! temp modified in macro. noexpand pX = temp ENDIF IF tst == GtN || 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 || 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 && (pX / $10) != SkcBank && 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 || tst == NE || tst == EqN || tst == NEN IF tst == EqN || 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 || tst == LE expand clc noexpand ELSE expand stc noexpand ENDIF ENDIF expand mov w, pX - w noexpand IF tst == Lt || (tst == LE && CpuCarry) expand snc noexpand ELSE expand sc noexpand ENDIF ENDIF IF ( ( tst == Gt) || (tst == LE) ) && ! CpuCarry expand snz noexpand ENDIF IF tst == Gt && !CpuCarry expand skip noexpand ENDIF ENDM Skz MACRO parm, cond ;Usage: Skz register, [IsZero | IsNotZero] noexpand IF parm > $0F expand bank parm ;non-global noexpand ENDIF expand test parm noexpand IF cond == IsZero expand sz noexpand ELSE IF cond == IsNotZero expand snz noexpand ELSE error 'Usage: Skz register, [IsZero | IsNotZero]' ENDIF ENDIF ENDM StackTOS = -1 stacklet MACRO ptr, val stack??ptr = val ENDM stackget MACRO ptr stackTOS = stack??ptr ENDM stackptr = 0 stackTOS = 0 stackpush MACRO parm stackptr = stackptr + 1 stacklet ?(stackptr), ?(stackTOS) stackTOS = parm ENDM stackpop MACRO if stackptr == 0 error 'stack underflow' endif stackget ?(stackptr) stackptr = stackptr - 1 ENDM 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 Repeat MACRO noexpand ;incase expand was already on. StackPUSH $ ENDM Until MACRO noexpand IF \0 == 2 Skz \1,\2 ELSE Skc \1,\2,\3 ENDIF expand jmp @StackTOS noexpand StackPOP ENDM While MACRO noexpand IF \0 == 2 Skz \1,\2^SkMskSwap ELSE Skc \1,\2^SkMskSwap,\3 ENDIF expand jmp @StackTOS noexpand StackPOP ENDM WhileNotZeroDec MACRO 1 noexpand expand djnz \1, @StackTOS noexpand StackPOP ENDM WhileNotZero MACRO 0 noexpand expand jnz @StackTOS noexpand StackPOP ENDM WhileZero MACRO 0 noexpand expand jz @StackTOS noexpand StackPOP ENDM WhileNoCarry MACRO 0 noexpand expand jnc @StackTOS noexpand StackPOP ENDM WhileCarry MACRO 0 noexpand expand jc @StackTOS noexpand StackPOP ENDM Forever MACRO noexpand ;incase expand was already on. expand jmp @StackTOS noexpand StackPOP ENDM link MACRO 2 local ataddr, toaddr, temp noexpand ataddr = \1 toaddr = \2 temp = $ org ataddr ; go back jmp @toaddr ;<- jmp to here org temp ; come forward ENDM DoIf MACRO local ComeFrom noexpand 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 :ComeFrom=$ ;mp +FAIL noexpand org $+2 ENDM DoElseIf MACRO local ComeFrom, ComeFromTo, FAIL, SUCCEED noexpand ;***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 :S = $ expand :ComeFrom=$ ;mp +SUCCEED noexpand org $+2 ;***Link the last DoIf or DoElseIf fail to the DoElseIf code ComeFromTo = ( (StackTOS & $FFFFFF) << 16 ) + $ link (StackTOS & $FFFFFF), $ expand :FAIL =ComeFromTo noexpand 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 = ($ - :S)<<24 + $ expand :ComeFrom=$ ;mp +FAIL noexpand org $+2 ENDM DoElse MACRO local ComeFrom, ComeFromTo, FAIL noexpand ;***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 :S = $ expand :ComeFrom=$ ;mp +SUCCEED noexpand org $+2 ; and leave space for it ;***Link the last DoIf or DoElseIf fail to the DoElse code link StackTOS, $ ComeFromTo = (StackTOS << 16) + $ expand :FAIL =ComeFromTo noExpand StackTOS = :S ENDM DoEndIf MACRO local SUCCEED, FAIL, ComeFromTo noexpand ;***If there is a previous succeed place, link it to this one IF (StackTOS >> 24) > 0 link (StackTOS - (StackTOS >> 24)), $ ComeFromTo = ( (StackTOS - (StackTOS >> 24)) << 16 ) + $ expand :SUCCEED=ComeFromTo noexpand ENDIF link (StackTOS & $FFFFFF), $ ComeFromTo = ( (StackTOS & $FFFFFF) << 16 ) + $ expand :FAIL =ComeFromTo noexpand StackPOP ENDM DoSelect:Level = 0 DoCase:Count = 0 DoCase:F = 0 DoSelect MACRO noexpand 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 local ComeFrom, ComeFromTo, FAIL noexpand DoCase:Count = DoCase:Count - 1 IF DoCase:Count < -1 ;***Setup place to Link the prev Case success code out to the end StackPUSH $ expand ComeFrom = $ ;mp +SUCCEED noexpand org $+2 ;***Link the last fail to this DoCase test code link DoCase:F, $ ComeFromTo = (DoCase:F << 16 ) + $ expand :FAIL =ComeFromTo 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 local ComeFrom, ComeFromTo, FAIL noexpand ;***Setup place to Link the prev DoCase success code out to the DoCaseEnd StackPUSH $ expand ComeFrom = $ ;mp +SUCCEED noexpand org $+2 ;***Link the last fail to the DoCaseElse code link DoCase:F, $ ComeFromTo = (DoCase:F << 16) + $ DoCase:F = 0 expand :FAIL =ComeFromTo noExpand ENDM DoCaseEnd MACRO local ComeFromTo, FAIL, SUCCEED noexpand ;***If there is a previous succeed place, link it to this one IF DoCase:Count < 0 REPT 0 - DoCase:Count link StackTOS, $ ComeFromTo = ( StackTOS << 16 ) + $ expand :SUCCEED=ComeFromTo noexpand StackPOP ENDR ENDIF IF DoCase:F > 0 link DoCase:F, $ ComeFromTo = (DoCase:F << 16) + $ expand :FAIL =ComeFromTo 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 pageaddr = -1 ;Can't use binjmp2 with forward references ; because of a bug in SASM, ; where MAIN:FOUR is a forward reference ; 361 m ifdef MAIN:FOUR ; 362 m if (pageaddr == MAIN:FOUR >> 9) ;****** macrotest.SRC(219) Line 362, Error 3, Pass 1: ; Symbol <MAIN:FOUR> is not defined ;if you really need forward references use this instead: ;binjmp2 MACRO index, one, two ; expand ; jnb index.0,@one ; jmp @two ; noexpand ; endm binjmp2 MACRO index, one, two ;assumes that pageaddr is set to current value of page bits on entry. noexpand pageaddr = $>>9 ifdef one if (pageaddr == one >> 9) expand jnb index.0,one noexpand else pageaddr = $ >> 9 expand jnb index.0,@one noexpand endif else pageaddr = $ >> 9 expand jnb index.0,@one noexpand endif ifdef two if (pageaddr == two >> 9) expand jmp two noexpand else pageaddr = $ >> 9 expand jmp @two noexpand endif else pageaddr = $ >> 9 expand jmp @two noexpand endif endm binjmp4 MACRO index, one, two, three, four local :1set ;assumes that pageaddr is set to current value of page bits on entry. if (pageaddr == ($+9)>>9) ;:1set can't be more than 9 words away. expand jb index.1, :1set noexpand else expand sb index.1 page :1set jmp :1set noexpand endif binjmp2 index, one, two expand :1set noexpand pageaddr = $ >> 9 ;can't get here except by jump and so must be paged binjmp2 index, three, four endm binjump MACRO local :2Set, :1Set, parms, index parms = \0 - 1 index = \1 ;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 expand page $ noexpand pageaddr = $ >> 9 if parms > 4 if parms == 5 expand jb \1.2, @\6 ;=4 noexpand binjmp4 \1,\2,\3,\4,\5 else ;6 or more if (pageaddr == ($+19)>>9) expand jb \1.2, :2Set ;>4 ;@$+16 noexpand else expand sb \1.2 page :2set jmp :2set ;>4 ;@$+16 noexpand endif binjmp4 \1,\2,\3,\4,\5 expand :2Set noexpand pageaddr = $ >> 9 ;can't get here except by jump and so must be paged if parms > 6 if parms > 7 binjmp4 \1,\6,\7,\8,\9 else ;7 expand jb \1.2, @\8 ;=2 or 6 noexpand binjmp4 \1,\2,\3,\6,\7 endif else ;6 binjmp2 \1,\6,\7 endif endif else ;4 or less if parms > 2 if parms == 3 expand jb \1.1, @\4 ;=2 or 6 noexpand binjmp2 \1,\2,\3 else ;4 binjmp4 \1,\2,\3,\4,\5 endif else ;2 binjmp2 \1, \2, \3 endif endif endm GotoW MACRO local _SaveAddr, _GotoWPage, _GotoWTableBegin 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 >> 9 REPT \0 IF (\% >> 9) != (_SaveAddr >> 9) _GotoWPage = (\% >> 9) ; ENDIF ENDR ;Do we need long jumps? ; we do if any of the jumps are to pages other than where the table is built. ; and we have to build the table in page 0 if we are not in a low half page IF _GotoWPage != (_SaveAddr >> 9) || ((_SaveAddr // $200) > $FF) ;has to be a long jump table IF \0 > 127 ERROR 'Long jumps must be used so no more than 127 entries can be supported' ENDIF IF \0 == 2 binjump WReg, \1, \2 EXITM ENDIF IF \0 == 3 binjump WReg, \1, \2, \3 EXITM ENDIF IF \0 == 4 binjump WReg, \1, \2, \3, \4 EXITM ENDIF ;find a place to build the table ; how about right here? are we in a low half page? Do we have room? IF (($ & $100) == 0) && ( (\0*2) < ( $100 - ($ & $FF) ) ) expand clc noexpand if myopts & ~OptRTCisW == 0 then expand rl WReg ;need long jumps ;WARNING: Insure OPTION:RWT = 0 noexpand else expand mov temp, w add w, temp ;WARNING: temp modified by Macro noexpand endif ELSE ;can't build it where we are... how about in the space we set aside? IF LowHalfPage + (\0*2) + 1 > HighHalfPage ERROR 'Out of LowHalfPage Space' ENDIF expand org LowHalfPage noexpand _GotoWPage = -1 ENDIF ELSE ;wow! All the destinations are in this page! IF \0 > 255 ERROR 'No more than 255 entries can be supported' ENDIF IF \0 == 2 binjump WReg, \1, \2 EXITM ENDIF expand page $+2 noexpand ENDIF expand _GotoWTableBegin = $ add PC,W ;jump to the jump noexpand REPT \0 IF _GotoWPage == -1 expand jmp @\% noexpand ELSE expand jmp \% noexpand ENDIF ENDR IF _GotoWPage == -1 ;located in low half page space LowHalfPage = $ expand org _SaveAddr clc noexpand if myopts & ~OptRTCisW == 0 then expand rl WReg ;need long jumps ;WARNING: Insure OPTION:RWT = 0 noexpand else expand mov temp, w add w, temp ;WARNING: temp modified by Macro noexpand endif expand page _GotoWTableBegin jmp _GotoWTableBegin noexpand ENDIF ENDM
file: /Techref/scenix/sasmcond.src, 17KB, , updated: 2002/12/19 16:56, local time: 2024/11/15 16:49,
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