#include "gen.h"
char *aopLiteral (value * val, int offset);
+char *aopLiteralLong (value * val, int offset, int size);
extern int allocInfo;
/* this is the down and dirty file with all kinds of
#define SYM_BP(sym) (SPEC_OCLS (sym->etype)->paged ? "_bpx" : "_bp")
-#define R0INB _G.bu.bs.r0InB
-#define R1INB _G.bu.bs.r1InB
-#define OPINB _G.bu.bs.OpInB
-#define BINUSE _G.bu.BInUse
+#define R0INB _G.bu.bs.r0InB
+#define R1INB _G.bu.bs.r1InB
+#define OPINB _G.bu.bs.OpInB
+#define BINUSE _G.bu.BInUse
static struct
{
_G;
static char *rb1regs[] = {
- "b1_0","b1_1","b1_2","b1_3","b1_4","b1_5","b1_6","b1_7"
+ "b1_0","b1_1","b1_2","b1_3","b1_4","b1_5","b1_6","b1_7",
+ "b0", "b1", "b2", "b3", "b4", "b5", "b6", "b7"
};
extern int mcs51_ptrRegReq;
else
tvsprintf (lb, sizeof(lb), fmt, ap);
- while (isspace (*lbp))
+ while (isspace ((unsigned char)*lbp))
lbp++;
if (lbp && *lbp)
emitcode("mov","a,%s", x);
}
+/*-----------------------------------------------------------------*/
+/* movc - moves specified value into the carry */
+/*-----------------------------------------------------------------*/
+static void
+movc (const char *s)
+{
+ if (s == zero)
+ CLRC;
+ else if (s == one)
+ SETC;
+ else if (strcmp (s, "c"))
+ {/* it's not in carry already */
+ MOVA (s);
+ /* set C, if a >= 1 */
+ emitcode ("add", "a,#0xff");
+ }
+}
+
/*-----------------------------------------------------------------*/
/* pushB - saves register B if necessary */
/*-----------------------------------------------------------------*/
}
}
+/*-----------------------------------------------------------------*/
+/* pushReg - saves register */
+/*-----------------------------------------------------------------*/
+static bool
+pushReg (int index, bool bits_pushed)
+{
+ regs * reg = mcs51_regWithIdx (index);
+ if (reg->type == REG_BIT)
+ {
+ if (!bits_pushed)
+ emitcode ("push", "%s", reg->base);
+ return TRUE;
+ }
+ else
+ emitcode ("push", "%s", reg->dname);
+ return bits_pushed;
+}
+
+/*-----------------------------------------------------------------*/
+/* popReg - restores register */
+/*-----------------------------------------------------------------*/
+static bool
+popReg (int index, bool bits_popped)
+{
+ regs * reg = mcs51_regWithIdx (index);
+ if (reg->type == REG_BIT)
+ {
+ if (!bits_popped)
+ emitcode ("pop", "%s", reg->base);
+ return TRUE;
+ }
+ else
+ emitcode ("pop", "%s", reg->dname);
+ return bits_popped;
+}
+
/*-----------------------------------------------------------------*/
/* getFreePtr - returns r0 or r1 whichever is free or can be pushed */
/*-----------------------------------------------------------------*/
}
freeBitVect(freeRegs);
- return 1;
+ return 0;
}
aop = Safe_calloc (1, sizeof (asmop));
aop->type = type;
+ aop->allocated = 1;
return aop;
}
/* if already has one */
if (sym->aop)
- return sym->aop;
+ {
+ sym->aop->allocated++;
+ return sym->aop;
+ }
/* assign depending on the storage class */
/* if it is on the stack or indirectly addressable */
sym->aop = aop = newAsmop (AOP_IMMD);
aop->aopu.aop_immd.aop_immd1 = Safe_calloc (1, strlen (sym->rname) + 1);
strcpy (aop->aopu.aop_immd.aop_immd1, sym->rname);
- aop->size = FPTRSIZE;
+ aop->size = getSize (sym->type);
return aop;
}
aop->aopu.aop_immd.from_cast_remat = 1;
ic = OP_SYMBOL (IC_RIGHT (ic))->rematiCode;
ptr_type = pointerTypeToGPByte (DCL_TYPE(from_type), NULL, NULL);
- continue ;
+ continue;
} else break;
ic = OP_SYMBOL (IC_LEFT (ic))->rematiCode;
return TRUE;
/* if they have the same rname */
- if (sym1->rname[0] && sym2->rname[0]
- && strcmp (sym1->rname, sym2->rname) == 0)
+ if (sym1->rname[0] && sym2->rname[0] &&
+ strcmp (sym1->rname, sym2->rname) == 0 &&
+ !(IS_PARM (op2) && IS_ITEMP (op1)))
return TRUE;
/* if left is a tmp & right is not */
return FALSE;
}
+/*-----------------------------------------------------------------*/
+/* sameReg - two asmops have the same register at given offsets */
+/*-----------------------------------------------------------------*/
+static bool
+sameReg (asmop * aop1, int off1, asmop * aop2, int off2)
+{
+ if (aop1->type != AOP_REG && aop1->type != AOP_CRY)
+ return FALSE;
+
+ if (aop1->type != aop2->type)
+ return FALSE;
+
+ if (aop1->aopu.aop_reg[off1] != aop2->aopu.aop_reg[off2])
+ return FALSE;
+
+ return TRUE;
+}
+
/*-----------------------------------------------------------------*/
/* sameRegs - two asmops have the same registers */
/*-----------------------------------------------------------------*/
if (aop1 == aop2)
return TRUE;
- if (aop1->type != AOP_REG ||
- aop2->type != AOP_REG)
+ if (aop1->type != AOP_REG && aop1->type != AOP_CRY)
+ return FALSE;
+
+ if (aop1->type != aop2->type)
return FALSE;
if (aop1->size != aop2->size)
return FALSE;
for (i = 0; i < aop1->size; i++)
- if (aop1->aopu.aop_reg[i] !=
- aop2->aopu.aop_reg[i])
+ if (aop1->aopu.aop_reg[i] != aop2->aopu.aop_reg[i])
return FALSE;
return TRUE;
}
/* if already has a asmop then continue */
- if (op->aop )
- return;
+ if (op->aop)
+ {
+ op->aop->allocated++;
+ return;
+ }
/* if the underlying symbol has a aop */
if (IS_SYMOP (op) && OP_SYMBOL (op)->aop)
{
op->aop = OP_SYMBOL (op)->aop;
+ op->aop->allocated++;
return;
}
return;
}
+ /* if the type is a bit register */
+ if (sym->regType == REG_BIT)
+ {
+ sym->aop = op->aop = aop = newAsmop (AOP_CRY);
+ aop->size = sym->nRegs;//1???
+ aop->aopu.aop_reg[0] = sym->regs[0];
+ aop->aopu.aop_dir = sym->regs[0]->name;
+ return;
+ }
+
/* must be in a register */
sym->aop = op->aop = aop = newAsmop (AOP_REG);
aop->size = sym->nRegs;
if (!aop)
return;
- if (aop->freed)
- goto dealloc;
+ aop->allocated--;
- aop->freed = 1;
+ if (aop->allocated)
+ goto dealloc;
- /* depending on the asmop type only three cases need work AOP_RO
- , AOP_R1 && AOP_STK */
+ /* depending on the asmop type only three cases need work
+ AOP_R0, AOP_R1 & AOP_STK */
switch (aop->type)
{
case AOP_R0:
if (!aop)
return;
- if (aop->freed)
+ if (!aop->allocated)
return;
switch (aop->type)
"aopget got unsupported aop->type");
exit (1);
}
+
+/*-----------------------------------------------------------------*/
+/* aopPutUsesAcc - indicates ahead of time whether aopPut() will */
+/* clobber the accumulator */
+/*-----------------------------------------------------------------*/
+static bool
+aopPutUsesAcc (operand * oper, const char *s, int offset)
+{
+ asmop * aop = AOP (oper);
+
+ if (offset > (aop->size - 1))
+ return FALSE;
+
+ switch (aop->type)
+ {
+ case AOP_DUMMY:
+ return TRUE;
+ case AOP_DIR:
+ return FALSE;
+ case AOP_REG:
+ wassert(strcmp(aop->aopu.aop_reg[offset]->name, "a"));
+ return FALSE;
+ case AOP_DPTR:
+ return TRUE;
+ case AOP_R0:
+ case AOP_R1:
+ return ((aop->paged) || (*s == '@'));
+ case AOP_STK:
+ return (*s == '@');
+ case AOP_CRY:
+ return (!aop->aopu.aop_dir || strcmp(s, aop->aopu.aop_dir));
+ case AOP_STR:
+ return FALSE;
+ case AOP_IMMD:
+ return FALSE;
+ case AOP_ACC:
+ return FALSE;
+ default:
+ /* Error case --- will have been caught already */
+ wassert(0);
+ return FALSE;
+ }
+}
+
/*-----------------------------------------------------------------*/
/* aopPut - puts a string for a aop and indicates if acc is in use */
/*-----------------------------------------------------------------*/
case AOP_DIR:
if (SPEC_SCLS (getSpec (operandType (result))) == S_SFR && offset)
- sprintf (d, "(%s >> %d)",
- aop->aopu.aop_dir, offset * 8);
+ sprintf (d, "(%s >> %d)", aop->aopu.aop_dir, offset * 8);
else if (offset)
- sprintf (d, "(%s + %d)",
- aop->aopu.aop_dir, offset);
+ sprintf (d, "(%s + %d)", aop->aopu.aop_dir, offset);
else
sprintf (d, "%s", aop->aopu.aop_dir);
- if (strcmp (d, s) ||
- bvolatile)
+ if (strcmp (d, s) || bvolatile)
emitcode ("mov", "%s,%s", d, s);
if (!strcmp (d, "acc"))
accuse = TRUE;
{
MOVA (s);
emitcode ("movx", "@%s,a", aop->aopu.aop_ptr->name);
-
}
else if (*s == '@')
{
emitcode ("setb", "%s", aop->aopu.aop_dir);
else if (!strcmp (s, "c"))
emitcode ("mov", "%s,c", aop->aopu.aop_dir);
- else
+ else if (strcmp (s, aop->aopu.aop_dir))
{
MOVA (s);
/* set C, if a >= 1 */
/* if in bit space then a special case */
if (AOP_TYPE (IC_LEFT (ic)) == AOP_CRY)
{
- emitcode ("mov", "c,%s", IC_LEFT (ic)->aop->aopu.aop_dir);
- emitcode ("cpl", "c");
- outBitC (IC_RESULT (ic));
+ /* if left==result then cpl bit */
+ if (sameRegs (AOP (IC_LEFT (ic)), AOP (IC_RESULT (ic))))
+ {
+ emitcode ("cpl", "%s", IC_LEFT (ic)->aop->aopu.aop_dir);
+ }
+ else
+ {
+ emitcode ("mov", "c,%s", IC_LEFT (ic)->aop->aopu.aop_dir);
+ emitcode ("cpl", "c");
+ outBitC (IC_RESULT (ic));
+ }
goto release;
}
toBoolean (IC_LEFT (ic));
+ /* set C, if a == 0 */
tlbl = newiTempLabel (NULL);
emitcode ("cjne", "a,#0x01,%05d$", tlbl->key + 100);
emitcode ("", "%05d$:", tlbl->key + 100);
release:
/* release the aops */
- freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? 0 : 1));
freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? 0 : 1));
}
bit -> int -> ~int -> bit
uchar -> int -> ~int -> bit
*/
- werror(W_COMPLEMENT);
emitcode ("setb", "%s", IC_RESULT (ic)->aop->aopu.aop_dir);
goto release;
}
release:
/* release the aops */
- freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? 0 : 1));
freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? 0 : 1));
}
/*-----------------------------------------------------------------*/
release:
/* release the aops */
- freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? 0 : 1));
freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? 0 : 1));
}
/*-----------------------------------------------------------------*/
if (count == 1)
{
- i = bitVectFirstBit (rsave);
- emitcode ("mov", "a,%s", mcs51_regWithIdx (i)->name);
+ regs * reg = mcs51_regWithIdx (bitVectFirstBit (rsave));
+ if (reg->type == REG_BIT)
+ {
+ emitcode ("mov", "a,%s", reg->base);
+ }
+ else
+ {
+ emitcode ("mov", "a,%s", reg->name);
+ }
emitcode ("mov", "r0,%s", spname);
emitcode ("inc", "%s", spname);// allocate before use
emitcode ("movx", "@r0,a");
}
else if (count != 0)
{
+ bitVect *rsavebits = bitVectIntersect (bitVectCopy (mcs51_allBitregs ()), rsave);
+ int nBits = bitVectnBitsOn (rsavebits);
+
+ if (nBits != 0)
+ {
+ count = count - nBits + 1;
+ /* remove all but the first bits as they are pushed all at once */
+ rsave = bitVectCplAnd (rsave, rsavebits);
+ rsave = bitVectSetBit (rsave, bitVectFirstBit (rsavebits));
+ }
+
if (bitVectBitValue (rsave, R0_IDX))
{
emitcode ("push", "%s", mcs51_regWithIdx (R0_IDX)->dname);
{
if (bitVectBitValue (rsave, i))
{
+ regs * reg = mcs51_regWithIdx (i);
if (i == R0_IDX)
{
emitcode ("pop", "acc");
emitcode ("push", "acc");
}
+ else if (reg->type == REG_BIT)
+ {
+ emitcode ("mov", "a,%s", reg->base);
+ }
else
{
- emitcode ("mov", "a,%s", mcs51_regWithIdx (i)->name);
+ emitcode ("mov", "a,%s", reg->name);
}
emitcode ("movx", "@r0,a");
if (--count)
}
}
else
- for (i = 0; i < mcs51_nRegs; i++)
- {
- if (bitVectBitValue (rsave, i))
- emitcode ("push", "%s", mcs51_regWithIdx (i)->dname);
- }
+ {
+ bool bits_pushed = FALSE;
+ for (i = 0; i < mcs51_nRegs; i++)
+ {
+ if (bitVectBitValue (rsave, i))
+ {
+ bits_pushed = pushReg (i, bits_pushed);
+ }
+ }
+ }
}
/*-----------------------------------------------------------------*/
if (count == 1)
{
+ regs * reg = mcs51_regWithIdx (bitVectFirstBit (rsave));
emitcode ("mov", "r0,%s", spname);
emitcode ("dec", "r0");
emitcode ("movx", "a,@r0");
- i = bitVectFirstBit (rsave);
- emitcode ("mov", "%s,a", mcs51_regWithIdx (i)->name);
+ if (reg->type == REG_BIT)
+ {
+ emitcode ("mov", "%s,a", reg->base);
+ }
+ else
+ {
+ emitcode ("mov", "%s,a", reg->name);
+ }
emitcode ("dec", "%s", spname);
}
else if (count != 0)
{
+ bitVect *rsavebits = bitVectIntersect (bitVectCopy (mcs51_allBitregs ()), rsave);
+ int nBits = bitVectnBitsOn (rsavebits);
+
+ if (nBits != 0)
+ {
+ count = count - nBits + 1;
+ /* remove all but the first bits as they are popped all at once */
+ rsave = bitVectCplAnd (rsave, rsavebits);
+ rsave = bitVectSetBit (rsave, bitVectFirstBit (rsavebits));
+ }
+
emitcode ("mov", "r0,%s", spname);
for (i = mcs51_nRegs; i >= 0; i--)
{
if (bitVectBitValue (rsave, i))
{
+ regs * reg = mcs51_regWithIdx (i);
emitcode ("dec", "r0");
emitcode ("movx", "a,@r0");
- if (i != R0_IDX)
- emitcode ("mov", "%s,a", mcs51_regWithIdx (i)->name);
+ if (i == R0_IDX)
+ {
+ emitcode ("push", "acc");
+ }
+ else if (reg->type == REG_BIT)
+ {
+ emitcode ("mov", "%s,a", reg->base);
+ }
else
- emitcode ("push", "acc");
+ {
+ emitcode ("mov", "%s,a", reg->name);
+ }
}
}
emitcode ("mov", "%s,r0", spname);
}
}
else
- for (i = mcs51_nRegs; i >= 0; i--)
- {
- if (bitVectBitValue (rsave, i))
- emitcode ("pop", "%s", mcs51_regWithIdx (i)->dname);
- }
+ {
+ bool bits_popped = FALSE;
+ for (i = mcs51_nRegs; i >= 0; i--)
+ {
+ if (bitVectBitValue (rsave, i))
+ {
+ bits_popped = popReg (i, bits_popped);
+ }
+ }
+ }
}
/*-----------------------------------------------------------------*/
-/* pushSide - */
+/* pushSide - */
/*-----------------------------------------------------------------*/
static void
pushSide (operand * oper, int size)
emitcode ("push", "acc");
}
else
+ {
emitcode ("push", "%s", l);
}
}
+}
/*-----------------------------------------------------------------*/
/* assignResultValue - also indicates if acc is in use afterwards */
/*-----------------------------------------------------------------*/
static bool
-assignResultValue (operand * oper)
+assignResultValue (operand * oper, operand * func)
{
int offset = 0;
int size = AOP_SIZE (oper);
bool accuse = FALSE;
+ bool pushedA = FALSE;
+ if (func && IS_BIT (OP_SYM_ETYPE (func)))
+ {
+ outBitC (oper);
+ return FALSE;
+ }
+
+ if ((size > 3) && aopPutUsesAcc (oper, fReturn[offset], offset))
+ {
+ emitcode ("push", "acc");
+ pushedA = TRUE;
+ }
while (size--)
{
+ if ((offset == 3) && pushedA)
+ emitcode ("pop", "acc");
accuse |= aopPut (oper, fReturn[offset], offset, isOperandVolatile (oper, FALSE));
offset++;
}
{
int size, offset = 0;
char *l;
+ char *prev = "";
D(emitcode ("; genIpush",""));
return;
}
- /* this is a paramter push: in this case we call
+ /* this is a parameter push: in this case we call
the routine to find the call and save those
registers that need to be saved */
saveRegisters (ic);
AOP_TYPE (IC_LEFT (ic)) != AOP_DIR &&
strcmp (l, "a"))
{
- MOVA (l);
+ if (strcmp (l, prev) || *l == '@')
+ MOVA (l);
emitcode ("push", "acc");
}
else
+ {
emitcode ("push", "%s", l);
+ }
+ prev = l;
}
freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
saveRBank (int bank, iCode * ic, bool pushPsw)
{
int i;
- int count = mcs51_nRegs + (pushPsw ? 1 : 0);
+ int count = 8 + ((mcs51_nRegs > 8) ? 1 : 0) + (pushPsw ? 1 : 0);
asmop *aop = NULL;
regs *r = NULL;
emitcode ("mov", "%s,a", spname);
}
- for (i = 0; i < mcs51_nRegs; i++)
+ for (i = 0; i < 8; i++)
{
if (options.useXstack)
{
regs8051[i].base, 8 * bank + regs8051[i].offset);
}
+ if (mcs51_nRegs > 8)
+ {
+ if (options.useXstack)
+ {
+ emitcode ("mov", "a,bits");
+ emitcode ("movx", "@%s,a", r->name);
+ if (--count)
+ emitcode ("inc", "%s", r->name);
+ }
+ else
+ {
+ emitcode ("push", "bits");
+ }
+ BitBankUsed = 1;
+ }
+
if (pushPsw)
{
if (options.useXstack)
}
}
- for (i = (mcs51_nRegs - 1); i >= 0; i--)
+ if (mcs51_nRegs > 8)
+ {
+ if (options.useXstack)
+ {
+ emitcode ("dec", "%s", r->name);
+ emitcode ("movx", "a,@%s", r->name);
+ emitcode ("mov", "bits,a");
+ }
+ else
+ {
+ emitcode ("pop", "bits");
+ }
+ }
+
+ for (i = 7; i >= 0; i--)
{
if (options.useXstack)
{
/*-----------------------------------------------------------------*/
static void genSend(set *sendSet)
{
- iCode *sic;
- int rb1_count = 0 ;
+ iCode *sic;
+ int bit_count = 0;
+
+ /* first we do all bit parameters */
+ for (sic = setFirstItem (sendSet); sic;
+ sic = setNextItem (sendSet))
+ {
+ if (sic->argreg > 12)
+ {
+ int bit = sic->argreg-13;
+
+ aopOp (IC_LEFT (sic), sic, FALSE);
+
+ /* if left is a literal then
+ we know what the value is */
+ if (AOP_TYPE (IC_LEFT (sic)) == AOP_LIT)
+ {
+ if (((int) operandLitValue (IC_LEFT (sic))))
+ emitcode ("setb", "b[%d]", bit);
+ else
+ emitcode ("clr", "b[%d]", bit);
+ }
+ else if (AOP_TYPE (IC_LEFT (sic)) == AOP_CRY)
+ {
+ char *l = AOP (IC_LEFT (sic))->aopu.aop_dir;
+ if (strcmp (l, "c"))
+ emitcode ("mov", "c,%s", l);
+ emitcode ("mov", "b[%d],c", bit);
+ }
+ else
+ {
+ /* we need to or */
+ toBoolean (IC_LEFT (sic));
+ /* set C, if a >= 1 */
+ emitcode ("add", "a,#0xff");
+ emitcode ("mov", "b[%d],c", bit);
+ }
+ bit_count++;
+ BitBankUsed = 1;
+
+ freeAsmop (IC_LEFT (sic), NULL, sic, TRUE);
+ }
+ }
- for (sic = setFirstItem (sendSet); sic;
- sic = setNextItem (sendSet)) {
+ if (bit_count)
+ {
+ saveRegisters (setFirstItem (sendSet));
+ emitcode ("mov", "bits,b");
+ }
+
+ /* then we do all other parameters */
+ for (sic = setFirstItem (sendSet); sic;
+ sic = setNextItem (sendSet))
+ {
+ if (sic->argreg <= 12)
+ {
int size, offset = 0;
aopOp (IC_LEFT (sic), sic, FALSE);
size = AOP_SIZE (IC_LEFT (sic));
- if (sic->argreg == 1) {
- while (size--) {
- char *l = aopGet (IC_LEFT (sic), offset,
- FALSE, FALSE);
+ if (sic->argreg == 1)
+ {
+ while (size--)
+ {
+ char *l = aopGet (IC_LEFT (sic), offset, FALSE, FALSE);
if (strcmp (l, fReturn[offset]))
emitcode ("mov", "%s,%s", fReturn[offset], l);
offset++;
- }
- rb1_count = 0;
- } else {
- while (size--) {
- emitcode ("mov","b1_%d,%s",rb1_count++,
- aopGet (IC_LEFT (sic), offset++,FALSE, FALSE));
- }
- }
+ }
+ }
+ else
+ {
+ while (size--)
+ {
+ emitcode ("mov","%s,%s", rb1regs[sic->argreg+offset-5],
+ aopGet (IC_LEFT (sic), offset,FALSE, FALSE));
+ offset++;
+ }
+ }
freeAsmop (IC_LEFT (sic), NULL, sic, TRUE);
+ }
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* selectRegBank - emit code to select the register bank */
+/*-----------------------------------------------------------------*/
+static void
+selectRegBank (short bank, bool keepFlags)
+{
+ /* if f.e. result is in carry */
+ if (keepFlags)
+ {
+ emitcode ("anl", "psw,#0xE7");
+ if (bank)
+ emitcode ("orl", "psw,#0x%02x", (bank << 3) & 0xff);
+ }
+ else
+ {
+ emitcode ("mov", "psw,#0x%02x", (bank << 3) & 0xff);
}
}
genCall (iCode * ic)
{
sym_link *dtype;
+ sym_link *etype;
// bool restoreBank = FALSE;
bool swapBanks = FALSE;
bool accuse = FALSE;
bool accPushed = FALSE;
+ bool resultInF0 = FALSE;
+ bool assignResultGenerated = FALSE;
D(emitcode("; genCall",""));
dtype = operandType (IC_LEFT (ic));
+ etype = getSpec(dtype);
/* if send set is not empty then assign */
if (_G.sendSet)
{
/* if we are calling a not _naked function that is not using
the same register bank then we need to save the
destination registers on the stack */
- dtype = operandType (IC_LEFT (ic));
if (currFunc && dtype && !IFFUNC_ISNAKED(dtype) &&
(FUNC_REGBANK (currFunc->type) != FUNC_REGBANK (dtype)) &&
!IFFUNC_ISISR (dtype))
- {
+ {
swapBanks = TRUE;
- }
+ }
/* if caller saves & we have not saved then */
if (!ic->regsSaved)
saveRegisters (ic);
if (swapBanks)
- {
+ {
emitcode ("mov", "psw,#0x%02x",
((FUNC_REGBANK(dtype)) << 3) & 0xff);
- }
+ }
/* make the call */
- emitcode ("lcall", "%s", (OP_SYMBOL (IC_LEFT (ic))->rname[0] ?
- OP_SYMBOL (IC_LEFT (ic))->rname :
- OP_SYMBOL (IC_LEFT (ic))->name));
+ if (IFFUNC_ISBANKEDCALL (dtype) && !SPEC_STAT(getSpec(dtype)))
+ {
+ if (IFFUNC_CALLEESAVES(dtype))
+ {
+ werror (E_BANKED_WITH_CALLEESAVES);
+ }
+ else
+ {
+ char *l = (OP_SYMBOL (IC_LEFT (ic))->rname[0] ?
+ OP_SYMBOL (IC_LEFT (ic))->rname :
+ OP_SYMBOL (IC_LEFT (ic))->name);
+
+ emitcode ("mov", "r0,#%s", l);
+ emitcode ("mov", "r1,#(%s >> 8)", l);
+ emitcode ("mov", "r2,#(%s >> 16)", l);
+ emitcode ("lcall", "__sdcc_banked_call");
+ }
+ }
+ else
+ {
+ emitcode ("lcall", "%s", (OP_SYMBOL (IC_LEFT (ic))->rname[0] ?
+ OP_SYMBOL (IC_LEFT (ic))->rname :
+ OP_SYMBOL (IC_LEFT (ic))->name));
+ }
if (swapBanks)
- {
- emitcode ("mov", "psw,#0x%02x",
- ((FUNC_REGBANK(currFunc->type)) << 3) & 0xff);
- }
+ {
+ selectRegBank (FUNC_REGBANK(currFunc->type), IS_BIT (etype));
+ }
/* if we need assign a result value */
if ((IS_ITEMP (IC_RESULT (ic)) &&
+ !IS_BIT (OP_SYM_ETYPE (IC_RESULT (ic))) &&
(OP_SYMBOL (IC_RESULT (ic))->nRegs ||
OP_SYMBOL (IC_RESULT (ic))->accuse ||
OP_SYMBOL (IC_RESULT (ic))->spildir)) ||
aopOp (IC_RESULT (ic), ic, FALSE);
_G.accInUse--;
- accuse = assignResultValue (IC_RESULT (ic));
+ accuse = assignResultValue (IC_RESULT (ic), IC_LEFT (ic));
+ assignResultGenerated = TRUE;
freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
}
emitcode ("push", "acc");
accPushed = TRUE;
}
+ if (IS_BIT (OP_SYM_ETYPE (IC_LEFT (ic))) &&
+ IS_BIT (OP_SYM_ETYPE (IC_RESULT (ic))) &&
+ !assignResultGenerated)
+ {
+ emitcode ("mov", "F0,c");
+ resultInF0 = TRUE;
+ }
emitcode ("mov", "a,%s", spname);
emitcode ("add", "a,#0x%02x", (-ic->parmBytes) & 0xff);
emitcode ("dec", "%s", spname);
}
- /* if we hade saved some registers then unsave them */
+ /* if we had saved some registers then unsave them */
if (ic->regsSaved && !IFFUNC_CALLEESAVES(dtype))
{
if (accuse && !accPushed && options.useXstack)
// if (restoreBank)
// unsaveRBank (FUNC_REGBANK (dtype), ic, FALSE);
+ if (IS_BIT (OP_SYM_ETYPE (IC_RESULT (ic))) && !assignResultGenerated)
+ {
+ if (resultInF0)
+ emitcode ("mov", "c,F0");
+
+ aopOp (IC_RESULT (ic), ic, FALSE);
+ assignResultValue (IC_RESULT (ic), IC_LEFT (ic));
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ }
+
if (accPushed)
emitcode ("pop", "acc");
}
genPcall (iCode * ic)
{
sym_link *dtype;
+ sym_link *etype;
symbol *rlbl = newiTempLabel (NULL);
// bool restoreBank=FALSE;
bool swapBanks = FALSE;
+ bool resultInF0 = FALSE;
D(emitcode("; genPCall",""));
+ dtype = operandType (IC_LEFT (ic))->next;
+ etype = getSpec(dtype);
/* if caller saves & we have not saved then */
if (!ic->regsSaved)
saveRegisters (ic);
/* if we are calling a not _naked function that is not using
the same register bank then we need to save the
destination registers on the stack */
- dtype = operandType (IC_LEFT (ic))->next;
if (currFunc && dtype && !IFFUNC_ISNAKED(dtype) &&
(FUNC_REGBANK (currFunc->type) != FUNC_REGBANK (dtype)) &&
!IFFUNC_ISISR (dtype))
- {
+ {
// saveRBank (FUNC_REGBANK (dtype), ic, TRUE);
// restoreBank=TRUE;
swapBanks = TRUE;
// need caution message to user here
- }
-
- /* push the return address on to the stack */
- emitcode ("mov", "a,#%05d$", (rlbl->key + 100));
- emitcode ("push", "acc");
- emitcode ("mov", "a,#(%05d$ >> 8)", (rlbl->key + 100));
- emitcode ("push", "acc");
+ }
- /* now push the calling address */
- aopOp (IC_LEFT (ic), ic, FALSE);
+ if (IS_LITERAL(etype))
+ {
+ /* if send set is not empty then assign */
+ if (_G.sendSet)
+ {
+ genSend(reverseSet(_G.sendSet));
+ _G.sendSet = NULL;
+ }
- pushSide (IC_LEFT (ic), FPTRSIZE);
+ if (swapBanks)
+ {
+ emitcode ("mov", "psw,#0x%02x",
+ ((FUNC_REGBANK(dtype)) << 3) & 0xff);
+ }
- freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
+ if (IFFUNC_ISBANKEDCALL (dtype) && !SPEC_STAT(getSpec(dtype)))
+ {
+ if (IFFUNC_CALLEESAVES(dtype))
+ {
+ werror (E_BANKED_WITH_CALLEESAVES);
+ }
+ else
+ {
+ char *l = aopLiteralLong (OP_VALUE (IC_LEFT (ic)), 0, 2);
- /* if send set is not empty the assign */
- if (_G.sendSet)
- {
- genSend(reverseSet(_G.sendSet));
- _G.sendSet = NULL;
+ emitcode ("mov", "r0,#%s", l);
+ emitcode ("mov", "r1,#(%s >> 8)", l);
+ emitcode ("mov", "r2,#(%s >> 16)", l);
+ emitcode ("lcall", "__sdcc_banked_call");
+ }
+ }
+ else
+ {
+ emitcode ("lcall", "%s", aopLiteralLong (OP_VALUE (IC_LEFT (ic)), 0, 2));
+ }
}
+ else
+ {
+ if (IFFUNC_ISBANKEDCALL (dtype) && !SPEC_STAT(getSpec(dtype)))
+ {
+ if (IFFUNC_CALLEESAVES(dtype))
+ {
+ werror (E_BANKED_WITH_CALLEESAVES);
+ }
+ else
+ {
+ aopOp (IC_LEFT (ic), ic, FALSE);
- if (swapBanks)
- {
- emitcode ("mov", "psw,#0x%02x",
- ((FUNC_REGBANK(dtype)) << 3) & 0xff);
- }
+ if (!swapBanks)
+ {
+ emitcode ("mov", "ar0,%s", aopGet(IC_LEFT (ic), 0, FALSE, FALSE));
+ emitcode ("mov", "ar1,%s", aopGet(IC_LEFT (ic), 1, FALSE, FALSE));
+ emitcode ("mov", "ar2,%s", aopGet(IC_LEFT (ic), 2, FALSE, FALSE));
+ }
+ else
+ {
+ int reg = ((FUNC_REGBANK(dtype)) << 3) & 0xff;
+ emitcode ("mov", "0x%02x,%s", reg++, aopGet(IC_LEFT (ic), 0, FALSE, FALSE));
+ emitcode ("mov", "0x%02x,%s", reg++, aopGet(IC_LEFT (ic), 1, FALSE, FALSE));
+ emitcode ("mov", "0x%02x,%s", reg, aopGet(IC_LEFT (ic), 2, FALSE, FALSE));
+ }
- /* make the call */
- emitcode ("ret", "");
- emitcode ("", "%05d$:", (rlbl->key + 100));
+ freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
+ /* if send set is not empty then assign */
+ if (_G.sendSet)
+ {
+ genSend(reverseSet(_G.sendSet));
+ _G.sendSet = NULL;
+ }
+ if (swapBanks)
+ {
+ emitcode ("mov", "psw,#0x%02x",
+ ((FUNC_REGBANK(dtype)) << 3) & 0xff);
+ }
+
+ /* make the call */
+ emitcode ("lcall", "__sdcc_banked_call");
+ }
+ }
+ else
+ {
+ /* push the return address on to the stack */
+ emitcode ("mov", "a,#%05d$", (rlbl->key + 100));
+ emitcode ("push", "acc");
+ emitcode ("mov", "a,#(%05d$ >> 8)", (rlbl->key + 100));
+ emitcode ("push", "acc");
+
+ /* now push the calling address */
+ aopOp (IC_LEFT (ic), ic, FALSE);
+
+ pushSide (IC_LEFT (ic), FPTRSIZE);
+
+ freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
+
+ /* if send set is not empty the assign */
+ if (_G.sendSet)
+ {
+ genSend(reverseSet(_G.sendSet));
+ _G.sendSet = NULL;
+ }
+
+ if (swapBanks)
+ {
+ emitcode ("mov", "psw,#0x%02x",
+ ((FUNC_REGBANK(dtype)) << 3) & 0xff);
+ }
+
+ /* make the call */
+ emitcode ("ret", "");
+ emitcode ("", "%05d$:", (rlbl->key + 100));
+ }
+ }
if (swapBanks)
- {
- emitcode ("mov", "psw,#0x%02x",
- ((FUNC_REGBANK(currFunc->type)) << 3) & 0xff);
- }
+ {
+ selectRegBank (FUNC_REGBANK(currFunc->type), IS_BIT (etype));
+ }
/* if we need assign a result value */
if ((IS_ITEMP (IC_RESULT (ic)) &&
+ !IS_BIT (OP_SYM_ETYPE (IC_RESULT (ic))) &&
(OP_SYMBOL (IC_RESULT (ic))->nRegs ||
OP_SYMBOL (IC_RESULT (ic))->spildir)) ||
IS_TRUE_SYMOP (IC_RESULT (ic)))
aopOp (IC_RESULT (ic), ic, FALSE);
_G.accInUse--;
- assignResultValue (IC_RESULT (ic));
+ assignResultValue (IC_RESULT (ic), IC_LEFT (ic));
freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
}
- /* adjust the stack for parameters if
- required */
+ /* adjust the stack for parameters if required */
if (ic->parmBytes)
{
int i;
if (ic->parmBytes > 3)
{
+ if (IS_BIT (OP_SYM_ETYPE (IC_LEFT (ic))) &&
+ IS_BIT (OP_SYM_ETYPE (IC_RESULT (ic))))
+ {
+ emitcode ("mov", "F0,c");
+ resultInF0 = TRUE;
+ }
+
emitcode ("mov", "a,%s", spname);
emitcode ("add", "a,#0x%02x", (-ic->parmBytes) & 0xff);
emitcode ("mov", "%s,a", spname);
// if (restoreBank)
// unsaveRBank (FUNC_REGBANK (dtype), ic, TRUE);
- /* if we hade saved some registers then
- unsave them */
+ /* if we had saved some registers then unsave them */
if (ic->regsSaved && !IFFUNC_CALLEESAVES(dtype))
unsaveRegisters (ic);
+
+ if (IS_BIT (OP_SYM_ETYPE (IC_RESULT (ic))))
+ {
+ if (resultInF0)
+ emitcode ("mov", "c,F0");
+
+ aopOp (IC_RESULT (ic), ic, FALSE);
+ assignResultValue (IC_RESULT (ic), IC_LEFT (ic));
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ }
}
/*-----------------------------------------------------------------*/
rbank = FUNC_REGBANK (ftype);
for (i = 0; i < mcs51_nRegs; i++)
{
- if (strcmp (regs8051[i].base, "0") == 0)
- emitcode ("", "%s = 0x%02x",
- regs8051[i].dname,
- 8 * rbank + regs8051[i].offset);
- else
- emitcode ("", "%s = %s + 0x%02x",
- regs8051[i].dname,
- regs8051[i].base,
- 8 * rbank + regs8051[i].offset);
+ if (regs8051[i].type != REG_BIT)
+ {
+ if (strcmp (regs8051[i].base, "0") == 0)
+ emitcode ("", "%s = 0x%02x",
+ regs8051[i].dname,
+ 8 * rbank + regs8051[i].offset);
+ else
+ emitcode ("", "%s = %s + 0x%02x",
+ regs8051[i].dname,
+ regs8051[i].base,
+ 8 * rbank + regs8051[i].offset);
+ }
}
}
/* if any registers used */
if (sym->regsUsed)
{
+ bool bits_pushed = FALSE;
/* save the registers used */
for (i = 0; i < sym->regsUsed->size; i++)
{
if (bitVectBitValue (sym->regsUsed, i))
- emitcode ("push", "%s", mcs51_regWithIdx (i)->dname);
+ bits_pushed = pushReg (i, bits_pushed);
}
}
}
/* if any registers used */
if (sym->regsUsed)
{
+ bool bits_pushed = FALSE;
/* save the registers used */
for (i = 0; i < sym->regsUsed->size; i++)
{
/* remember one saved register for later usage */
if (calleesaves_saved_register < 0)
calleesaves_saved_register = i;
- emitcode ("push", "%s", mcs51_regWithIdx (i)->dname);
+ bits_pushed = pushReg (i, bits_pushed);
_G.nRegsSaved++;
}
}
if (IFFUNC_ISCRITICAL (sym->type))
{
- emitcode ("pop", "psw"); /* restore ea via c in psw */
- emitcode ("mov", "ea,c");
+ if (IS_BIT (OP_SYM_ETYPE (IC_LEFT (ic))))
+ {
+ emitcode ("rlc", "a"); /* save c in a */
+ emitcode ("pop", "psw"); /* restore ea via c in psw */
+ emitcode ("mov", "ea,c");
+ emitcode ("rrc", "a"); /* restore c from a */
+ }
+ else
+ {
+ emitcode ("pop", "psw"); /* restore ea via c in psw */
+ emitcode ("mov", "ea,c");
+ }
}
if ((IFFUNC_ISREENT (sym->type) || options.stackAuto))
/* restore the register bank */
if ( /* FUNC_REGBANK (sym->type) || */ IFFUNC_ISISR (sym->type))
{
- if (/* !FUNC_REGBANK (sym->type) || */ !IFFUNC_ISISR (sym->type)
+ if (!FUNC_REGBANK (sym->type) || !IFFUNC_ISISR (sym->type)
|| !options.useXstack)
{
/* Special case of ISR using non-zero bank with useXstack
/* if any registers used */
if (sym->regsUsed)
{
+ bool bits_popped = FALSE;
/* save the registers used */
for (i = sym->regsUsed->size; i >= 0; i--)
{
if (bitVectBitValue (sym->regsUsed, i))
- emitcode ("pop", "%s", mcs51_regWithIdx (i)->dname);
+ bits_popped = popReg (i, bits_popped);
}
}
}
debugFile->writeEndFunction (currFunc, ic, 1);
}
- emitcode ("ret", "");
+ if (IFFUNC_ISBANKEDCALL (sym->type) && !SPEC_STAT(getSpec(sym->type)))
+ {
+ emitcode ("ljmp", "__sdcc_banked_ret");
+ }
+ else
+ {
+ emitcode ("ret", "");
+ }
}
if (!port->peep.getRegsRead || !port->peep.getRegsWritten || options.nopeep)
aopOp (IC_LEFT (ic), ic, FALSE);
size = AOP_SIZE (IC_LEFT (ic));
+
+ if (IS_BIT(_G.currentFunc->etype))
+ {
+ movc (aopGet (IC_LEFT (ic), 0, FALSE, FALSE));
+ size = 0;
+ }
+
while (size--)
{
char *l;
}
}
- if (pushed)
+ while (pushed)
{
- while (pushed)
- {
- pushed--;
- if (strcmp (fReturn[pushed], "a"))
- emitcode ("pop", fReturn[pushed]);
- else
- emitcode ("pop", "acc");
- }
+ pushed--;
+ if (strcmp (fReturn[pushed], "a"))
+ emitcode ("pop", fReturn[pushed]);
+ else
+ emitcode ("pop", "acc");
}
freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
if (AOP_TYPE (IC_RIGHT (ic)) != AOP_LIT)
return FALSE;
- /* if the literal value of the right hand side
- is greater than 4 then it is not worth it */
- if ((icount = (unsigned int) floatFromVal (AOP (IC_RIGHT (ic))->aopu.aop_lit)) > 4)
- return FALSE;
+ icount = (unsigned int) floatFromVal (AOP (IC_RIGHT (ic))->aopu.aop_lit);
D(emitcode ("; genPlusIncr",""));
/* if increment >=16 bits in register or direct space */
if ((AOP_TYPE(IC_LEFT(ic)) == AOP_REG || AOP_TYPE(IC_LEFT(ic)) == AOP_DIR ) &&
sameRegs (AOP (IC_LEFT (ic)), AOP (IC_RESULT (ic))) &&
+ !isOperandVolatile (IC_RESULT (ic), FALSE) &&
(size > 1) &&
(icount == 1))
{
return TRUE;
}
+ /* if result is dptr */
+ if ((AOP_TYPE (IC_RESULT (ic)) == AOP_STR) &&
+ (AOP_SIZE (IC_RESULT (ic)) == 2) &&
+ !strncmp(AOP (IC_RESULT (ic))->aopu.aop_str[0], "dpl", 4) &&
+ !strncmp(AOP (IC_RESULT (ic))->aopu.aop_str[1], "dph", 4))
+ {
+ if (aopGetUsesAcc (IC_LEFT (ic), 0))
+ return FALSE;
+
+ if (icount > 9)
+ return FALSE;
+
+ if ((AOP_TYPE (IC_LEFT (ic)) != AOP_DIR) && (icount > 5))
+ return FALSE;
+
+ aopPut (IC_RESULT (ic), aopGet (IC_LEFT (ic), 0, FALSE, FALSE), 0, FALSE);
+ aopPut (IC_RESULT (ic), aopGet (IC_LEFT (ic), 1, FALSE, FALSE), 1, FALSE);
+ while (icount--)
+ emitcode ("inc", "dptr");
+
+ return TRUE;
+ }
+
+ /* if the literal value of the right hand side
+ is greater than 4 then it is not worth it */
+ if (icount > 4)
+ return FALSE;
+
/* if the sizes are greater than 1 then we cannot */
if (AOP_SIZE (IC_RESULT (ic)) > 1 ||
AOP_SIZE (IC_LEFT (ic)) > 1)
int size, offset = 0;
int skip_bytes = 0;
char *add = "add";
+ bool swappedLR = FALSE;
operand *leftOp, *rightOp;
operand * op;
operand *t = IC_RIGHT (ic);
IC_RIGHT (ic) = IC_LEFT (ic);
IC_LEFT (ic) = t;
+ swappedLR = TRUE;
}
/* if both left & right are in bit
size = getDataSize (IC_RESULT (ic));
leftOp = IC_LEFT(ic);
rightOp = IC_RIGHT(ic);
- op=IC_LEFT(ic);
+ op = IC_LEFT(ic);
/* if this is an add for an array access
at a 256 byte boundary */
adjustArithmeticResult (ic);
release:
- freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (IC_RIGHT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ if (!swappedLR)
+ {
+ freeAsmop (IC_RIGHT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ }
+ else
+ {
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (IC_RIGHT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ }
}
/*-----------------------------------------------------------------*/
-/* genMinusDec :- does subtraction with deccrement if possible */
+/* genMinusDec :- does subtraction with decrement if possible */
/*-----------------------------------------------------------------*/
static bool
genMinusDec (iCode * ic)
same */
if (sameRegs (AOP (IC_LEFT (ic)), AOP (IC_RESULT (ic))))
{
+ char *l;
+
+ if (aopGetUsesAcc (IC_LEFT (ic), 0))
+ {
+ MOVA (aopGet (IC_RESULT (ic), 0, FALSE, FALSE));
+ l = "a";
+ }
+ else
+ {
+ l = aopGet (IC_RESULT (ic), 0, FALSE, FALSE);
+ }
while (icount--)
- emitcode ("dec", "%s", aopGet (IC_RESULT (ic), 0, FALSE, FALSE));
+ emitcode ("dec", "%s", l);
+
+ if (AOP_NEEDSACC (IC_RESULT (ic)))
+ aopPut (IC_RESULT (ic), "a", 0, isOperandVolatile (IC_RESULT (ic), FALSE));
return TRUE;
}
while (size--)
{
- if (useCarry || ((lit >> (offset * 8)) & 0x0FFL)) {
+ if (useCarry || ((lit >> (offset * 8)) & 0x0FFL))
+ {
MOVA (aopGet (IC_LEFT (ic), offset, FALSE, FALSE));
- if (!offset && !size && lit== (unsigned long) -1) {
- emitcode ("dec", "a");
- } else if (!useCarry) {
- /* first add without previous c */
- emitcode ("add", "a,#0x%02x",
- (unsigned int) ((lit >> (offset * 8)) & 0x0FFL));
- useCarry = TRUE;
- } else {
- emitcode ("addc", "a,#0x%02x",
- (unsigned int) ((lit >> (offset * 8)) & 0x0FFL));
- }
- aopPut (IC_RESULT (ic), "a", offset++, isOperandVolatile (IC_RESULT (ic), FALSE));
- } else {
+ if (!offset && !size && lit== (unsigned long) -1)
+ {
+ emitcode ("dec", "a");
+ }
+ else if (!useCarry)
+ {
+ /* first add without previous c */
+ emitcode ("add", "a,#0x%02x",
+ (unsigned int) ((lit >> (offset * 8)) & 0x0FFL));
+ useCarry = TRUE;
+ }
+ else
+ {
+ emitcode ("addc", "a,#0x%02x",
+ (unsigned int) ((lit >> (offset * 8)) & 0x0FFL));
+ }
+ aopPut (IC_RESULT (ic), "a", offset++, isOperandVolatile (IC_RESULT (ic), FALSE));
+ }
+ else
+ {
/* no need to add zeroes */
+ if (!sameRegs (AOP (IC_RESULT (ic)), AOP (IC_LEFT (ic))))
+ {
+ aopPut (IC_RESULT (ic), aopGet (IC_LEFT (ic), offset, FALSE, FALSE),
+ offset, isOperandVolatile (IC_RESULT (ic), FALSE));
+ }
offset++;
}
}
emitcode ("subb", "a,b");
popB (pushedB);
} else {
+ /* reverse subtraction with 2's complement */
+ if (offset == 0)
+ emitcode( "setb", "c");
+ else
+ emitcode( "cpl", "c");
wassertl(!aopGetUsesAcc(leftOp, offset), "accumulator clash");
MOVA (aopGet(rightOp, offset, FALSE, TRUE));
- if (offset == 0) {
- emitcode( "setb", "c");
- }
emitcode("subb", "a,%s", aopGet(leftOp, offset, FALSE, TRUE));
emitcode("cpl", "a");
+ if (size) /* skip if last byte */
+ emitcode( "cpl", "c");
}
} else {
MOVA (aopGet (leftOp, offset, FALSE, FALSE));
adjustArithmeticResult (ic);
release:
- freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (IC_RIGHT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ freeAsmop (IC_RIGHT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
}
D(emitcode ("; genMult",""));
- /* assign the amsops */
+ /* assign the asmops */
aopOp (left, ic, FALSE);
aopOp (right, ic, FALSE);
aopOp (result, ic, TRUE);
{
bool lUnsigned, rUnsigned, pushedB;
bool runtimeSign, compiletimeSign;
+ bool accuse = FALSE;
+ bool pushedA = FALSE;
symbol *lbl;
int size, offset;
emitcode ("inc", "a");
emitcode ("", "%05d$:", (lbl->key + 100));
- aopPut (result, "a", 0, isOperandVolatile (result, FALSE));
+ accuse = aopPut (result, "a", 0, isOperandVolatile (result, FALSE));
if (size > 0)
{
/* msb is 0x00 or 0xff depending on the sign */
if (runtimeSign)
{
+ if (accuse)
+ {
+ emitcode ("push", "acc");
+ pushedA = TRUE;
+ }
emitcode ("mov", "c,F0");
emitcode ("subb", "a,acc");
while (size--)
aopPut (result, "a", offset++, isOperandVolatile (result, FALSE));
}
else /* compiletimeSign */
- while (size--)
- aopPut (result, "#0xff", offset++, isOperandVolatile (result, FALSE));
+ {
+ if (aopPutUsesAcc (result, "#0xFF", offset))
+ {
+ emitcode ("push", "acc");
+ pushedA = TRUE;
+ }
+ while (size--)
+ aopPut (result, "#0xff", offset++, isOperandVolatile (result, FALSE));
+ }
}
}
else
aopPut (result, zero, offset++, isOperandVolatile (result, FALSE));
}
+ if (pushedA)
+ emitcode ("pop", "acc");
popB (pushedB);
}
/* should have been converted to function call */
assert (0);
release:
+ freeAsmop (result, NULL, ic, TRUE);
freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (result, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
assert (0);
release:
+ freeAsmop (result, NULL, ic, TRUE);
freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (result, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
sign = !((SPEC_USIGN (letype) && !(IS_CHAR (letype) && IS_LITERAL (letype))) ||
(SPEC_USIGN (retype) && !(IS_CHAR (retype) && IS_LITERAL (retype))));
/* assign the amsops */
+ aopOp (result, ic, TRUE);
aopOp (left, ic, FALSE);
aopOp (right, ic, FALSE);
- aopOp (result, ic, TRUE);
genCmp (right, left, result, ifx, sign, ic);
sign = !((SPEC_USIGN (letype) && !(IS_CHAR (letype) && IS_LITERAL (letype))) ||
(SPEC_USIGN (retype) && !(IS_CHAR (retype) && IS_LITERAL (retype))));
/* assign the amsops */
+ aopOp (result, ic, TRUE);
aopOp (left, ic, FALSE);
aopOp (right, ic, FALSE);
- aopOp (result, ic, TRUE);
- genCmp (left, right, result, ifx, sign,ic);
+ genCmp (left, right, result, ifx, sign, ic);
freeAsmop (result, NULL, ic, TRUE);
}
static void
genCmpEq (iCode * ic, iCode * ifx)
{
+ bool swappedLR = FALSE;
operand *left, *right, *result;
D(emitcode ("; genCmpEq",""));
operand *t = IC_RIGHT (ic);
IC_RIGHT (ic) = IC_LEFT (ic);
IC_LEFT (ic) = t;
+ swappedLR = TRUE;
}
if (ifx && !AOP_SIZE (result))
}
release:
- freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (result, NULL, ic, TRUE);
+ if (!swappedLR)
+ {
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ }
+ else
+ {
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ }
}
/*-----------------------------------------------------------------*/
outBitAcc (result);
}
+ freeAsmop (result, NULL, ic, TRUE);
freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (result, NULL, ic, TRUE);
}
outBitAcc (result);
}
+ freeAsmop (result, NULL, ic, TRUE);
freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (result, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
}
else
{
- if (AOP_TYPE (left) == AOP_ACC && offset == 0)
+ if (AOP_TYPE (left) == AOP_ACC)
+ {
+ if (offset)
+ emitcode("mov", "a,b");
+ emitcode ("anl", "a,%s", aopGet (right, offset, FALSE, FALSE));
+ }
+ else if (aopGetUsesAcc (left, offset) && aopGetUsesAcc (right, offset))
+ {
+ emitcode ("mov", "b,%s", aopGet (left, offset, FALSE, FALSE));
+ MOVA (aopGet (right, offset, FALSE, FALSE));
+ emitcode ("anl", "a,b");
+ aopPut (result, "a", offset, isOperandVolatile (result, FALSE));
+ }
+ else if (aopGetUsesAcc (left, offset))
{
+ MOVA (aopGet (left, offset, FALSE, FALSE));
emitcode ("anl", "a,%s", aopGet (right, offset, FALSE, FALSE));
+ aopPut (result, "a", offset, isOperandVolatile (result, FALSE));
}
else
{
MOVA (aopGet (right, offset, FALSE, FALSE));
emitcode("anl", "a,b");
}
- } else {
+ } else {
MOVA (aopGet (right, offset, FALSE, FALSE));
- emitcode ("anl", "a,%s",
+ emitcode ("anl", "a,%s",
aopGet (left, offset, FALSE, FALSE));
+ }
}
- }
emitcode ("jnz", "%05d$", tlbl->key + 100);
offset++;
}
emitcode("mov", "a,b");
emitcode ("anl", "a,%s", aopGet (right, offset, FALSE, FALSE));
}
+ else if (aopGetUsesAcc (left, offset) && aopGetUsesAcc (right, offset))
+ {
+ emitcode ("mov", "b,%s", aopGet (left, offset, FALSE, FALSE));
+ MOVA (aopGet (right, offset, FALSE, FALSE));
+ emitcode ("anl", "a,b");
+ }
+ else if (aopGetUsesAcc (left, offset))
+ {
+ MOVA (aopGet (left, offset, FALSE, FALSE));
+ emitcode ("anl", "a,%s", aopGet (right, offset, FALSE, FALSE));
+ }
else
{
MOVA (aopGet (right, offset, FALSE, FALSE));
- emitcode ("anl", "a,%s",
- aopGet (left, offset, FALSE, FALSE));
+ emitcode ("anl", "a,%s", aopGet (left, offset, FALSE, FALSE));
}
aopPut (result, "a", offset, isOperandVolatile (result, FALSE));
}
}
release:
+ freeAsmop (result, NULL, ic, TRUE);
freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (result, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
emitcode("mov", "a,b");
emitcode ("orl", "a,%s", aopGet (right, offset, FALSE, FALSE));
}
+ else if (aopGetUsesAcc (left, offset) && aopGetUsesAcc (right, offset))
+ {
+ emitcode ("mov", "b,%s", aopGet (left, offset, FALSE, FALSE));
+ MOVA (aopGet (right, offset, FALSE, FALSE));
+ emitcode ("orl", "a,b");
+ aopPut (result, "a", offset, isOperandVolatile (result, FALSE));
+ }
+ else if (aopGetUsesAcc (left, offset))
+ {
+ MOVA (aopGet (left, offset, FALSE, FALSE));
+ emitcode ("orl", "a,%s", aopGet (right, offset, FALSE, FALSE));
+ aopPut (result, "a", offset, isOperandVolatile (result, FALSE));
+ }
else
{
MOVA (aopGet (right, offset, FALSE, FALSE));
emitcode("mov", "a,b");
emitcode ("orl", "a,%s", aopGet (right, offset, FALSE, FALSE));
}
+ else if (aopGetUsesAcc (left, offset) && aopGetUsesAcc (right, offset))
+ {
+ emitcode ("mov", "b,%s", aopGet (left, offset, FALSE, FALSE));
+ MOVA (aopGet (right, offset, FALSE, FALSE));
+ emitcode ("orl", "a,b");
+ }
+ else if (aopGetUsesAcc (left, offset))
+ {
+ MOVA (aopGet (left, offset, FALSE, FALSE));
+ emitcode ("orl", "a,%s", aopGet (right, offset, FALSE, FALSE));
+ }
else
{
MOVA (aopGet (right, offset, FALSE, FALSE));
- emitcode ("orl", "a,%s",
- aopGet (left, offset, FALSE, FALSE));
+ emitcode ("orl", "a,%s", aopGet (left, offset, FALSE, FALSE));
}
aopPut (result, "a", offset, isOperandVolatile (result, FALSE));
}
}
release:
+ freeAsmop (result, NULL, ic, TRUE);
freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (result, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
emitcode("mov", "a,b");
emitcode ("xrl", "a,%s", aopGet (right, offset, FALSE, FALSE));
}
+ else if (aopGetUsesAcc (left, offset) && aopGetUsesAcc (right, offset))
+ {
+ emitcode ("mov", "b,%s", aopGet (left, offset, FALSE, FALSE));
+ MOVA (aopGet (right, offset, FALSE, FALSE));
+ emitcode ("xrl", "a,b");
+ aopPut (result, "a", offset, isOperandVolatile (result, FALSE));
+ }
+ else if (aopGetUsesAcc (left, offset))
+ {
+ MOVA (aopGet (left, offset, FALSE, FALSE));
+ emitcode ("xrl", "a,%s", aopGet (right, offset, FALSE, FALSE));
+ aopPut (result, "a", offset, isOperandVolatile (result, FALSE));
+ }
else
{
MOVA (aopGet (right, offset, FALSE, FALSE));
emitcode("mov", "a,b");
emitcode ("xrl", "a,%s", aopGet (right, offset, FALSE, FALSE));
}
+ else if (aopGetUsesAcc (left, offset) && aopGetUsesAcc (right, offset))
+ {
+ emitcode ("mov", "b,%s", aopGet (left, offset, FALSE, FALSE));
+ MOVA (aopGet (right, offset, FALSE, FALSE));
+ emitcode ("xrl", "a,b");
+ }
+ else if (aopGetUsesAcc (left, offset))
+ {
+ MOVA (aopGet (left, offset, FALSE, FALSE));
+ emitcode ("xrl", "a,%s", aopGet (right, offset, FALSE, FALSE));
+ }
else
{
MOVA (aopGet (right, offset, FALSE, FALSE));
- emitcode ("xrl", "a,%s",
- aopGet (left, offset, FALSE, TRUE));
+ emitcode ("xrl", "a,%s", aopGet (left, offset, FALSE, TRUE));
}
aopPut (result, "a", offset, isOperandVolatile (result, FALSE));
}
}
release:
+ freeAsmop (result, NULL, ic, TRUE);
freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
- freeAsmop (result, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
else
{
/* Add \n for labels, not dirs such as c:\mydir */
- if ( (*bp == ':') && (isspace(bp[1])) )
+ if ( (*bp == ':') && (isspace((unsigned char)bp[1])) )
{
bp++;
*bp = '\0';
l = aopGet (result, AOP_SIZE (result) - 1, FALSE, FALSE);
MOVA (l);
}
- emitcode ("mov", "acc.7,c");
- release:
- aopPut (result, "a", AOP_SIZE (result) - 1, isOperandVolatile (result, FALSE));
- freeAsmop (left, NULL, ic, TRUE);
+ emitcode ("mov", "acc.7,c");
+ release:
+ aopPut (result, "a", AOP_SIZE (result) - 1, isOperandVolatile (result, FALSE));
+ freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genRLC - generate code for rotate left with carry */
+/*-----------------------------------------------------------------*/
+static void
+genRLC (iCode * ic)
+{
+ operand *left, *result;
+ int size, offset = 0;
+ char *l;
+
+ D(emitcode ("; genRLC",""));
+
+ /* rotate right with carry */
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+ aopOp (left, ic, FALSE);
+ aopOp (result, ic, FALSE);
+
+ /* move it to the result */
+ size = AOP_SIZE (result);
+ offset = 0;
+ if (size--)
+ {
+ l = aopGet (left, offset, FALSE, FALSE);
+ MOVA (l);
+ if (size == 0) { /* special case for 1 byte */
+ emitcode("rl","a");
+ goto release;
+ }
+ emitcode("rlc","a"); /* bit0 will be written later */
+ if (AOP_SIZE (result) > 1)
+ aopPut (result, "a", offset++, isOperandVolatile (result, FALSE));
+ while (size--)
+ {
+ l = aopGet (left, offset, FALSE, FALSE);
+ MOVA (l);
+ emitcode ("rlc", "a");
+ if (AOP_SIZE (result) > 1)
+ aopPut (result, "a", offset++, isOperandVolatile (result, FALSE));
+ }
+ }
+ /* now we need to put the carry into the
+ highest order byte of the result */
+ if (AOP_SIZE (result) > 1)
+ {
+ l = aopGet (result, 0, FALSE, FALSE);
+ MOVA (l);
+ }
+ emitcode ("mov", "acc.0,c");
+ release:
+ aopPut (result, "a", 0, isOperandVolatile (result, FALSE));
+ freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genGetHbit - generates code get highest order bit */
+/*-----------------------------------------------------------------*/
+static void
+genGetHbit (iCode * ic)
+{
+ operand *left, *result;
+
+ D(emitcode ("; genGetHbit",""));
+
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+ aopOp (left, ic, FALSE);
+ aopOp (result, ic, FALSE);
+
+ /* get the highest order byte into a */
+ MOVA (aopGet (left, AOP_SIZE (left) - 1, FALSE, FALSE));
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ emitcode ("rlc", "a");
+ outBitC (result);
+ }
+ else
+ {
+ emitcode ("rl", "a");
+ emitcode ("anl", "a,#0x01");
+ outAcc (result);
+ }
+
+ freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genGetAbit - generates code get a single bit */
+/*-----------------------------------------------------------------*/
+static void
+genGetAbit (iCode * ic)
+{
+ operand *left, *right, *result;
+ int shCount;
+
+ D(emitcode ("; genGetAbit",""));
+
+ left = IC_LEFT (ic);
+ right = IC_RIGHT (ic);
+ result = IC_RESULT (ic);
+ aopOp (left, ic, FALSE);
+ aopOp (right, ic, FALSE);
+ aopOp (result, ic, FALSE);
+
+ shCount = (int) floatFromVal (AOP (IC_RIGHT (ic))->aopu.aop_lit);
+
+ /* get the needed byte into a */
+ MOVA (aopGet (left, shCount / 8, FALSE, FALSE));
+ shCount %= 8;
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ if ((shCount) == 7)
+ emitcode ("rlc", "a");
+ else if ((shCount) == 0)
+ emitcode ("rrc", "a");
+ else
+ emitcode ("mov", "c,acc[%d]", shCount);
+ outBitC (result);
+ }
+ else
+ {
+ switch (shCount)
+ {
+ case 2:
+ emitcode ("rr", "a");
+ //fallthrough
+ case 1:
+ emitcode ("rr", "a");
+ //fallthrough
+ case 0:
+ emitcode ("anl", "a,#0x01");
+ break;
+ case 3:
+ case 5:
+ emitcode ("mov", "c,acc[%d]", shCount);
+ emitcode ("clr", "a");
+ emitcode ("rlc", "a");
+ break;
+ case 4:
+ emitcode ("swap", "a");
+ emitcode ("anl", "a,#0x01");
+ break;
+ case 6:
+ emitcode ("rl", "a");
+ //fallthrough
+ case 7:
+ emitcode ("rl", "a");
+ emitcode ("anl", "a,#0x01");
+ break;
+ }
+ outAcc (result);
+ }
+
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
-/* genRLC - generate code for rotate left with carry */
+/* genGetByte - generates code get a single byte */
/*-----------------------------------------------------------------*/
static void
-genRLC (iCode * ic)
+genGetByte (iCode * ic)
{
- operand *left, *result;
- int size, offset = 0;
- char *l;
+ operand *left, *right, *result;
+ int offset;
- D(emitcode ("; genRLC",""));
+ D(emitcode ("; genGetByte",""));
- /* rotate right with carry */
left = IC_LEFT (ic);
+ right = IC_RIGHT (ic);
result = IC_RESULT (ic);
aopOp (left, ic, FALSE);
+ aopOp (right, ic, FALSE);
aopOp (result, ic, FALSE);
- /* move it to the result */
- size = AOP_SIZE (result);
- offset = 0;
- if (size--)
- {
- l = aopGet (left, offset, FALSE, FALSE);
- MOVA (l);
- if (size == 0) { /* special case for 1 byte */
- emitcode("rl","a");
- goto release;
- }
- emitcode("rlc","a"); /* bit0 will be written later */
- if (AOP_SIZE (result) > 1)
- aopPut (result, "a", offset++, isOperandVolatile (result, FALSE));
- while (size--)
- {
- l = aopGet (left, offset, FALSE, FALSE);
- MOVA (l);
- emitcode ("rlc", "a");
- if (AOP_SIZE (result) > 1)
- aopPut (result, "a", offset++, isOperandVolatile (result, FALSE));
- }
- }
- /* now we need to put the carry into the
- highest order byte of the result */
- if (AOP_SIZE (result) > 1)
- {
- l = aopGet (result, 0, FALSE, FALSE);
- MOVA (l);
- }
- emitcode ("mov", "acc.0,c");
- release:
- aopPut (result, "a", 0, isOperandVolatile (result, FALSE));
- freeAsmop (left, NULL, ic, TRUE);
+ offset = (int)floatFromVal (AOP (right)->aopu.aop_lit) / 8;
+ aopPut (result,
+ aopGet (left, offset, FALSE, FALSE),
+ 0,
+ isOperandVolatile (result, FALSE));
+
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
-/* genGetHbit - generates code get highest order bit */
+/* genGetWord - generates code get two bytes */
/*-----------------------------------------------------------------*/
static void
-genGetHbit (iCode * ic)
+genGetWord (iCode * ic)
{
- operand *left, *result;
+ operand *left, *right, *result;
+ int offset;
- D(emitcode ("; genGetHbit",""));
+ D(emitcode ("; genGetWord",""));
left = IC_LEFT (ic);
+ right = IC_RIGHT (ic);
result = IC_RESULT (ic);
aopOp (left, ic, FALSE);
+ aopOp (right, ic, FALSE);
aopOp (result, ic, FALSE);
- /* get the highest order byte into a */
- MOVA (aopGet (left, AOP_SIZE (left) - 1, FALSE, FALSE));
- if (AOP_TYPE (result) == AOP_CRY)
- {
- emitcode ("rlc", "a");
- outBitC (result);
- }
- else
- {
- emitcode ("rl", "a");
- emitcode ("anl", "a,#0x01");
- outAcc (result);
- }
-
+ offset = (int)floatFromVal (AOP (right)->aopu.aop_lit) / 8;
+ aopPut (result,
+ aopGet (left, offset, FALSE, FALSE),
+ 0,
+ isOperandVolatile (result, FALSE));
+ aopPut (result,
+ aopGet (left, offset+1, FALSE, FALSE),
+ 1,
+ isOperandVolatile (result, FALSE));
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
wassertl(FALSE, "unsupported SWAP operand size");
}
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/* MSB sign in acc.7 ! */
if (getDataSize (left) == offl + 1)
{
- emitcode ("mov", "a,%s", l);
+ MOVA (l);
aopPut (result, "a", offr, isOperandVolatile (result, FALSE));
}
}
shiftL2Left2Result (operand * left, int offl,
operand * result, int offr, int shCount)
{
+ char * x;
+ bool pushedB = FALSE;
+ bool usedB = FALSE;
+
if (sameRegs (AOP (result), AOP (left)) &&
((offl + MSB16) == offr))
{
/* don't crash result[offr] */
MOVA (aopGet (left, offl, FALSE, FALSE));
emitcode ("xch", "a,%s", aopGet (left, offl + MSB16, FALSE, FALSE));
+ x = aopGet (result, offr, FALSE, FALSE);
+ }
+ else if (aopGetUsesAcc (result, offr))
+ {
+ movLeft2Result (left, offl, result, offr, 0);
+ pushedB = pushB ();
+ usedB = TRUE;
+ emitcode ("mov", "b,%s", aopGet (left, offl + MSB16, FALSE, FALSE));
+ MOVA (aopGet (result, offr, FALSE, FALSE));
+ emitcode ("xch", "a,b");
+ x = "b";
}
else
{
movLeft2Result (left, offl, result, offr, 0);
MOVA (aopGet (left, offl + MSB16, FALSE, FALSE));
+ x = aopGet (result, offr, FALSE, FALSE);
}
/* ax << shCount (x = lsb(result)) */
- AccAXLsh (aopGet (result, offr, FALSE, FALSE), shCount);
- aopPut (result, "a", offr + MSB16, isOperandVolatile (result, FALSE));
+ AccAXLsh (x, shCount);
+ if (usedB)
+ {
+ emitcode ("xch", "a,b");
+ aopPut (result, "a", offr, isOperandVolatile (result, FALSE));
+ aopPut (result, "b", offr + MSB16, isOperandVolatile (result, FALSE));
+ popB (pushedB);
+ }
+ else
+ {
+ aopPut (result, "a", offr + MSB16, isOperandVolatile (result, FALSE));
+ }
}
operand * result, int offr,
int shCount, int sign)
{
+ char * x;
+ bool pushedB = FALSE;
+ bool usedB = FALSE;
+
if (sameRegs (AOP (result), AOP (left)) &&
((offl + MSB16) == offr))
{
/* don't crash result[offr] */
MOVA (aopGet (left, offl, FALSE, FALSE));
emitcode ("xch", "a,%s", aopGet (left, offl + MSB16, FALSE, FALSE));
+ x = aopGet (result, offr, FALSE, FALSE);
+ }
+ else if (aopGetUsesAcc (result, offr))
+ {
+ movLeft2Result (left, offl, result, offr, 0);
+ pushedB = pushB ();
+ usedB = TRUE;
+ emitcode ("mov", "b,%s", aopGet (result, offr, FALSE, FALSE));
+ MOVA (aopGet (left, offl + MSB16, FALSE, FALSE));
+ x = "b";
}
else
{
movLeft2Result (left, offl, result, offr, 0);
MOVA (aopGet (left, offl + MSB16, FALSE, FALSE));
+ x = aopGet (result, offr, FALSE, FALSE);
}
/* a:x >> shCount (x = lsb(result)) */
if (sign)
- AccAXRshS (aopGet (result, offr, FALSE, FALSE), shCount);
+ AccAXRshS (x, shCount);
else
- AccAXRsh (aopGet (result, offr, FALSE, FALSE), shCount);
+ AccAXRsh (x, shCount);
+ if (usedB)
+ {
+ emitcode ("xch", "a,b");
+ aopPut (result, "a", offr, isOperandVolatile (result, FALSE));
+ emitcode ("xch", "a,b");
+ popB (pushedB);
+ }
if (getDataSize (result) > 1)
aopPut (result, "a", offr + MSB16, isOperandVolatile (result, FALSE));
}
/* shift left accumulator */
AccLsh (shCount);
/* or with result */
- emitcode ("orl", "a,%s", aopGet (result, offr, FALSE, FALSE));
+ if (aopGetUsesAcc (result, offr))
+ {
+ emitcode ("xch", "a,b");
+ MOVA (aopGet (result, offr, FALSE, FALSE));
+ emitcode ("orl", "a,b");
+ }
+ else
+ {
+ emitcode ("orl", "a,%s", aopGet (result, offr, FALSE, FALSE));
+ }
/* back to result */
aopPut (result, "a", offr, isOperandVolatile (result, FALSE));
}
break;
}
}
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
emitcode ("djnz", "b,%05d$", tlbl->key + 100);
popB (pushedB);
release:
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
shiftRLong (operand * left, int offl,
operand * result, int sign)
{
- int isSameRegs=sameRegs(AOP(left),AOP(result));
+ bool useSameRegs = regsInCommon (left, result);
- if (isSameRegs && offl>1) {
- // we are in big trouble, but this shouldn't happen
- werror(E_INTERNAL_ERROR, __FILE__, __LINE__);
- }
+ if (useSameRegs && offl>1)
+ {
+ // we are in big trouble, but this shouldn't happen
+ werror(E_INTERNAL_ERROR, __FILE__, __LINE__);
+ }
MOVA (aopGet (left, MSB32, FALSE, FALSE));
- if (offl==MSB16) {
- // shift is > 8
- if (sign) {
- emitcode ("rlc", "a");
- emitcode ("subb", "a,acc");
- if (isSameRegs)
- emitcode ("xch", "a,%s", aopGet (left, MSB32, FALSE, FALSE));
- else {
- aopPut (result, "a", MSB32, isOperandVolatile (result, FALSE));
- MOVA (aopGet (left, MSB32, FALSE, FALSE));
- }
- } else {
- aopPut (result, zero, MSB32, isOperandVolatile (result, FALSE));
+ if (offl==MSB16)
+ {
+ // shift is > 8
+ if (sign)
+ {
+ emitcode ("rlc", "a");
+ emitcode ("subb", "a,acc");
+ if (useSameRegs && sameReg (AOP (left), MSB32, AOP (result), MSB32))
+ {
+ emitcode ("xch", "a,%s", aopGet (left, MSB32, FALSE, FALSE));
+ }
+ else
+ {
+ aopPut (result, "a", MSB32, isOperandVolatile (result, FALSE));
+ MOVA (aopGet (left, MSB32, FALSE, FALSE));
+ }
+ }
+ else
+ {
+ aopPut (result, zero, MSB32, isOperandVolatile (result, FALSE));
+ }
}
- }
- if (!sign) {
- emitcode ("clr", "c");
- } else {
- emitcode ("mov", "c,acc.7");
- }
+ if (!sign)
+ {
+ emitcode ("clr", "c");
+ }
+ else
+ {
+ emitcode ("mov", "c,acc.7");
+ }
emitcode ("rrc", "a");
- if (isSameRegs && offl==MSB16) {
- emitcode ("xch", "a,%s",aopGet (left, MSB24, FALSE, FALSE));
- } else {
- aopPut (result, "a", MSB32-offl, isOperandVolatile (result, FALSE));
- MOVA (aopGet (left, MSB24, FALSE, FALSE));
- }
+ if (useSameRegs && offl==MSB16 &&
+ sameReg (AOP (left), MSB24, AOP (result), MSB32-offl))
+ {
+ emitcode ("xch", "a,%s",aopGet (left, MSB24, FALSE, FALSE));
+ }
+ else
+ {
+ aopPut (result, "a", MSB32-offl, isOperandVolatile (result, FALSE));
+ MOVA (aopGet (left, MSB24, FALSE, FALSE));
+ }
emitcode ("rrc", "a");
- if (isSameRegs && offl==1) {
- emitcode ("xch", "a,%s",aopGet (left, MSB16, FALSE, FALSE));
- } else {
- aopPut (result, "a", MSB24-offl, isOperandVolatile (result, FALSE));
- MOVA (aopGet (left, MSB16, FALSE, FALSE));
- }
+ if (useSameRegs && offl==1 &&
+ sameReg (AOP (left), MSB16, AOP (result), MSB24-offl))
+ {
+ emitcode ("xch", "a,%s",aopGet (left, MSB16, FALSE, FALSE));
+ }
+ else
+ {
+ aopPut (result, "a", MSB24-offl, isOperandVolatile (result, FALSE));
+ MOVA (aopGet (left, MSB16, FALSE, FALSE));
+ }
emitcode ("rrc", "a");
- aopPut (result, "a", MSB16 - offl, isOperandVolatile (result, FALSE));
-
- if (offl == LSB)
+ if (offl != LSB)
+ {
+ aopPut (result, "a", MSB16 - offl, isOperandVolatile (result, FALSE));
+ }
+ else
{
- MOVA (aopGet (left, LSB, FALSE, FALSE));
+ if (useSameRegs &&
+ sameReg (AOP (left), LSB, AOP (result), MSB16-offl))
+ {
+ emitcode ("xch", "a,%s",aopGet (left, LSB, FALSE, FALSE));
+ }
+ else
+ {
+ aopPut (result, "a", MSB16 - offl, isOperandVolatile (result, FALSE));
+ MOVA (aopGet (left, LSB, FALSE, FALSE));
+ }
emitcode ("rrc", "a");
aopPut (result, "a", LSB, isOperandVolatile (result, FALSE));
}
break;
}
}
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
popB (pushedB);
release:
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
popB (pushedB);
release:
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
if (blen < 8)
{
emitPtrByteGet (rname, ptype, FALSE);
- AccRsh (bstr);
+ AccRol (8 - bstr);
emitcode ("anl", "a,#0x%02x", ((unsigned char) -1) >> (8 - blen));
+ if (!SPEC_USIGN (etype))
+ {
+ /* signed bitfield */
+ symbol *tlbl = newiTempLabel (NULL);
+
+ emitcode ("jnb", "acc.%d,%05d$", blen - 1, tlbl->key + 100);
+ emitcode ("orl", "a,#0x%02x", (unsigned char) (0xff << blen));
+ emitcode ("", "%05d$:", tlbl->key + 100);
+ }
aopPut (result, "a", offset++, isOperandVolatile (result, FALSE));
goto finish;
}
{
emitPtrByteGet (rname, ptype, FALSE);
emitcode ("anl", "a,#0x%02x", ((unsigned char) -1) >> (8-rlen));
+ if (!SPEC_USIGN (etype))
+ {
+ /* signed bitfield */
+ symbol *tlbl = newiTempLabel (NULL);
+
+ emitcode ("jnb", "acc.%d,%05d$", rlen - 1, tlbl->key + 100);
+ emitcode ("orl", "a,#0x%02x", (unsigned char) (0xff << rlen));
+ emitcode ("", "%05d$:", tlbl->key + 100);
+ }
aopPut (result, "a", offset++, isOperandVolatile (result, FALSE));
}
finish:
if (offset < rsize)
{
+ char *source;
+
+ if (SPEC_USIGN (etype))
+ source = zero;
+ else
+ {
+ /* signed bitfield: sign extension with 0x00 or 0xff */
+ emitcode ("rlc", "a");
+ emitcode ("subb", "a,acc");
+
+ source = "a";
+ }
rsize -= offset;
while (rsize--)
- aopPut (result, zero, offset++, isOperandVolatile (result, FALSE));
+ aopPut (result, source, offset++, isOperandVolatile (result, FALSE));
}
}
aopPut (result, buffer, offset++, isOperandVolatile (result, FALSE));
}
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
}
/* done */
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
if (pi) pi->generated = 1;
-
}
/*--------------------------------------------------------------------*/
genIfxJump (ifx, "a", left, NULL, result);
}
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
genIfxJump (ifx, "a", left, NULL, result);
}
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
genIfxJump (ifx, "a", left, NULL, result);
}
-
- freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (left, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
aopGet (right, offset++, FALSE, FALSE));
}
- freeAsmop (right, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
if (pi) pi->generated = 1;
freeAsmop (result, NULL, ic, TRUE);
freeAsmop (right, NULL, ic, TRUE);
-
-
}
/*-----------------------------------------------------------------*/
{
operand *cond = IC_COND (ic);
int isbit = 0;
+ char *dup = NULL;
D(emitcode ("; genIfx",""));
if (AOP_TYPE (cond) != AOP_CRY)
toBoolean (cond);
else
- isbit = 1;
- /* the result is now in the accumulator */
+ {
+ isbit = 1;
+ if (AOP(cond)->aopu.aop_dir)
+ dup = Safe_strdup(AOP(cond)->aopu.aop_dir);
+ }
+ /* the result is now in the accumulator or a directly addressable bit */
freeAsmop (cond, NULL, ic, TRUE);
/* if there was something to be popped then do it */
genIpop (popIc);
/* if the condition is a bit variable */
- if (isbit && IS_ITEMP (cond) && SPIL_LOC (cond))
+ if (isbit && dup)
+ genIfxJump(ic, dup, NULL, NULL, NULL);
+ else if (isbit && IS_ITEMP (cond) && SPIL_LOC (cond))
genIfxJump (ic, SPIL_LOC (cond)->rname, NULL, NULL, NULL);
else if (isbit && !IS_ITEMP (cond))
genIfxJump (ic, OP_SYMBOL (cond)->rname, NULL, NULL, NULL);
aopPut (result, "a", --offset, isOperandVolatile (result, FALSE));
}
freeAsmop (result, NULL, ic, FALSE);
-
}
/*-----------------------------------------------------------------*/
}
release:
- freeAsmop (right, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
/* this algorithm needs 9 cycles and 7 + 3*n bytes
if the switch argument is in a register.
(8 cycles and 6+2*n bytes if peepholes can change ljmp to sjmp) */
- /* (MB) What if peephole converts ljmp to sjmp or ret ???
- How will multiply by three be updated ???*/
+ /* Peephole may not convert ljmp to sjmp or ret
+ labelIsReturnOnly & labelInRange must check
+ currPl->ic->op != JUMPTABLE */
aopOp (IC_JTCOND (ic), ic, FALSE);
/* get the condition into accumulator */
l = aopGet (IC_JTCOND (ic), 0, FALSE, FALSE);
MOVA (l);
/* multiply by three */
- emitcode ("add", "a,acc");
- emitcode ("add", "a,%s", aopGet (IC_JTCOND (ic), 0, FALSE, FALSE));
+ if (aopGetUsesAcc (IC_JTCOND (ic), 0))
+ {
+ emitcode ("mov", "b,#3");
+ emitcode ("mul", "ab");
+ }
+ else
+ {
+ emitcode ("add", "a,acc");
+ emitcode ("add", "a,%s", aopGet (IC_JTCOND (ic), 0, FALSE, FALSE));
+ }
freeAsmop (IC_JTCOND (ic), NULL, ic, TRUE);
jtab = newiTempLabel (NULL);
/* if the result is a bit (and not a bitfield) */
// if (AOP_TYPE (result) == AOP_CRY)
- if (IS_BITVAR (OP_SYMBOL (result)->type)
- && !IS_BITFIELD (OP_SYMBOL (result)->type) )
+ if (IS_BIT (OP_SYMBOL (result)->type))
+ /* not for bitfields */
{
/* if the right size is a literal then
we know what the value is */
/* we are done hurray !!!! */
release:
- freeAsmop (right, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
-
+ freeAsmop (right, NULL, ic, TRUE);
}
/*-----------------------------------------------------------------*/
static void
genReceive (iCode * ic)
{
- int size = getSize (operandType (IC_RESULT (ic)));
- int offset = 0;
+ int size = getSize (operandType (IC_RESULT (ic)));
+ int offset = 0;
+
D(emitcode ("; genReceive",""));
- if (ic->argreg == 1) { /* first parameter */
- if (isOperandInFarSpace (IC_RESULT (ic)) &&
+ if (ic->argreg == 1)
+ { /* first parameter */
+ if ((isOperandInFarSpace (IC_RESULT (ic)) ||
+ isOperandInPagedSpace (IC_RESULT (ic))) &&
(OP_SYMBOL (IC_RESULT (ic))->isspilt ||
- IS_TRUE_SYMOP (IC_RESULT (ic)))) {
-
+ IS_TRUE_SYMOP (IC_RESULT (ic))))
+ {
regs *tempRegs[4];
int receivingA = 0;
int roffset = 0;
}
offset = fReturnSizeMCS51 - size;
- while (size--) {
+ while (size--)
+ {
emitcode ("push", "%s", (strcmp (fReturn[fReturnSizeMCS51 - offset - 1], "a") ?
fReturn[fReturnSizeMCS51 - offset - 1] : "acc"));
offset++;
- }
+ }
aopOp (IC_RESULT (ic), ic, FALSE);
size = AOP_SIZE (IC_RESULT (ic));
offset = 0;
- while (size--) {
+ while (size--)
+ {
emitcode ("pop", "acc");
aopPut (IC_RESULT (ic), "a", offset++, isOperandVolatile (IC_RESULT (ic), FALSE));
- }
-
- } else {
+ }
+ }
+ else
+ {
_G.accInUse++;
aopOp (IC_RESULT (ic), ic, FALSE);
_G.accInUse--;
- assignResultValue (IC_RESULT (ic));
- }
- } else { /* second receive onwards */
+ assignResultValue (IC_RESULT (ic), NULL);
+ }
+ }
+ else if (ic->argreg > 12)
+ { /* bit parameters */
+ if (OP_SYMBOL (IC_RESULT (ic))->regs[0]->rIdx != ic->argreg-5)
+ {
+ aopOp (IC_RESULT (ic), ic, FALSE);
+ emitcode ("mov", "c,%s", rb1regs[ic->argreg-5]);
+ outBitC(IC_RESULT (ic));
+ }
+ }
+ else
+ { /* other parameters */
int rb1off ;
aopOp (IC_RESULT (ic), ic, FALSE);
rb1off = ic->argreg;
- while (size--) {
+ while (size--)
+ {
aopPut (IC_RESULT (ic), rb1regs[rb1off++ -5], offset++, isOperandVolatile (IC_RESULT (ic), FALSE));
- }
- }
+ }
+ }
release:
freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
char regsInUse[80];
int i;
+ #if 0
for (i=0; i<8; i++) {
sprintf (®sInUse[i],
- "%c", ic->riu & (1<<i) ? i+'0' : '-');
- }
+ "%c", ic->riu & (1<<i) ? i+'0' : '-'); /* show riu */
regsInUse[i]=0;
+ #else
+ strcpy (regsInUse, "--------");
+ for (i=0; i < 8; i++) {
+ if (bitVectBitValue (ic->rMask, i))
+ {
+ int offset = regs8051[i].offset;
+ regsInUse[offset] = offset + '0'; /* show rMask */
+ }
+ #endif
+ }
emitcode("", "; [%s] ic:%d: %s", regsInUse, ic->seq, printILine(ic));
}
/* if the result is marked as
genGetHbit (ic);
break;
+ case GETABIT:
+ genGetAbit (ic);
+ break;
+
+ case GETBYTE:
+ genGetByte (ic);
+ break;
+
+ case GETWORD:
+ genGetWord (ic);
+ break;
+
case LEFT_OP:
genLeftShift (ic);
break;