GenInstrDecodePLA3:
PUBLIC GenInstrDecodePLAProc = {
current ← old;
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dADDB], out:[
aReg: abStackTop,
x2ALitSource: alpha,
cReg: cStackTop,
aluOp: SAdd,
condSel: OvFl ]];
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dSUBB], out:[
aReg: abStackTop,
x2ALitSource: alpha,
cReg: cStackTop,
aluOp: SSub,
condSel: OvFl ]];
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dADDDB], out:[
aReg: abStackTop,
x2ALitSource: alphaBeta,
cReg: cStackTop,
aluOp: SAdd,
condSel: OvFl ]];
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dSUBDB], out:[
aReg: abStackTop,
x2ALitSource: alphaBeta,
cReg: cStackTop,
aluOp: SSub,
condSel: OvFl ]];
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dADDQB], out:[
aReg: abStackTop,
x2ALitSource: alpBetGamDel,
cReg: cStackTop,
aluOp: SAdd,
condSel: OvFl ]];
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dSUBQB], out:[
aReg: abStackTop,
x2ALitSource: alpBetGamDel,
cReg: cStackTop,
aluOp: SSub,
condSel: OvFl ]];
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dSHDL], out:[
aReg: [ s, offset, minus1 ],
bReg: [ s, offset, zero ],
popSb: TRUE,
x2ALitSource: alphaBeta,
cReg: [s, offset, minus1],
aluOp: FOP ]];
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dSHDR], out:[
aReg: [ s, offset, zero ],
bReg: [ s, offset, minus1 ],
popSb: TRUE,
x2ALitSource: alphaBeta,
cReg: [s, offset, minus1],
aluOp: FOP ]];
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dSHL], out:[
aReg: [ s, offset, zero ],
bReg: [ cBase, offset, zero ],
x2ALitSource: alphaBeta,
cReg: cStackTop,
aluOp: FOP ]];
Set[s:current, m:[op: InstrTopSig[8]], d:[op: dSHR], out:[
aReg: [ s, offset, zero ],
bReg: [ s, offset, zero ],
x2ALitSource: alphaBeta,
cReg: [ s, offset, zero ],
aluOp: FOP ]];
Comment out Mul and Div for now
instr ← And[current, BE[m:[op: InstrTopSig[8]], d:[op: dSMUL]]];
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: 0], out:[
nextMacro: hold,
pcNext: fromPCBus,
microCycleNext: next,
aReg: [ s, offset, zero ], -- Lt ← S=Multiplicand
bReg: [ s, offset, minus1 ], -- MQ ← Rt ← Multiplier
cReg: [ s, offset, minus1 ], -- Product.msw
aluOp: MulLd,
condSel: EZ, -- IF aluout=Lt=Multiplicand is zero then quit
condEffect0: microJump]]; -- cycle ← microFixedJump if zero
m ← [ -- 1..16
nextMacro: hold,
pcNext: fromPCBus,
microCycleNext: next,
aReg: [ s, offset, minus1 ], -- Product.msw
bReg: [ s, offset, zero ], -- Multiplicand
cReg: [ s, offset, minus1 ], -- Product.msw mulcandS
aluOp: MulStep ];
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: 1], out: m]; -- 1
Set[s: instr, m:[state: ByteTopSig[7]], d:[state: 2], out: m]; -- 2.. 3
Set[s: instr, m:[state: ByteTopSig[6]], d:[state: 4], out: m]; -- 4.. 7
Set[s: instr, m:[state: ByteTopSig[5]], d:[state: 8], out: m]; -- 8..15
Set[s: instr, m:[state: ByteTopSig[8]], d:[state:16], out: m]; -- 16
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: 17], out:[
nextMacro: get,
pcNext: fromPCBus,
microCycleNext: next,
cReg: [ s, offset, zero ], -- Product.lsw ← MQ
aluOp: RdMQ ]];
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: fixedMicroJump], out:[
aReg: constantZero, -- Product.msw
bReg: constantZero, -- Multiplicand
cReg: [ s, offset, minus1 ], -- Product.msw ← 0
aluOp: Or ]];
instr ← And[current, BE[m:[op: InstrTopSig[8]], d:[op: dUDIV]]];
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: 0], out:[
nextMacro: hold,
pcNext: fromPCBus,
microCycleNext: next,
aReg: [ s, offset, minus2 ], -- Dividend MSW
bReg: [ s, offset, minus1 ], -- Dividend LSW
cReg: [ s, offset, one ],
aluOp: DivLdDbl]];
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: 1], out:[
nextMacro: hold,
pcNext: fromPCBus,
microCycleNext: next,
aReg: [ s, offset, one ], -- Dividend.msw (temp location)
bReg: [ s, offset, zero ], -- Divisor
cReg: [ s, offset, minus1 ], -- Remainder destination
aluOp: DivCk,
condSel: DivOvFl,
condEffect0: macroTrap ]];
m ← [ -- 2..32
nextMacro: hold,
pcNext: fromPCBus,
microCycleNext: next,
aReg: [ s, offset, minus1 ], -- Remainder source
bReg: [ s, offset, zero ], -- Divisor
cReg: [ s, offset, minus1 ], -- Remainder destination
aluOp: DivStep ];
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: 3], out: m]; -- 3
Set[s: instr, m:[state: ByteTopSig[6]], d:[state: 4], out: m]; -- 4.. 7
Set[s: instr, m:[state: ByteTopSig[5]], d:[state: 8], out: m]; -- 8..15
Set[s: instr, m:[state: ByteTopSig[4]], d:[state:16], out: m]; -- 16..31
Set[s: instr, m:[state: ByteTopSig[8]], d:[state:32], out: m]; -- 32
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: 33], out:[
nextMacro: hold,
pcNext: fromPCBus,
microCycleNext: next,
aReg: [ s, offset, minus1 ], -- Remainder source
bReg: [ s, offset, zero ], -- Divisor
cReg: [ s, offset, minus1 ], -- Remainder destination
aluOp: DivAdjQ ]];
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: 34], out:[
nextMacro: hold,
pcNext: fromPCBus,
microCycleNext: next,
aReg: [ s, offset, minus1 ], -- Remainder source
bReg: [ s, offset, zero ], -- Divisor
cReg: [ s, offset, minus1 ], -- Remainder destination
aluOp: DivAdjR ]];
Set[s: instr, m:[state: ByteTopSig[8]], d:[state: 36], out:[
nextMacro: get,
cReg: [ s, offset, minus2 ], -- Quotient destination
aluOp: RdMQ ]];
};