Made everything static
-------------------------------------------------------------------------*/
+#define D(x)
+//#define D(x) x
+
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef HAVE_SYS_ISA_DEFS_H
#include <sys/isa_defs.h>
#else
+#ifdef HAVE_MACHINE_ENDIAN_H
+#include <machine/endian.h>
+#else
#ifdef HAVE_ENDIAN_H
#include <endian.h>
#else
-#if !defined(__BORLANDC__) && !defined(_MSC_VER)
+#if !defined(__BORLANDC__) && !defined(_MSC_VER) && !defined(__MINGW32__) && !defined(__CYGWIN__)
#warning "Cannot determine ENDIANESS of this machine assuming LITTLE_ENDIAN"
#warning "If you running sdcc on an INTEL 80x86 Platform you are okay"
#endif
#endif
#endif
+#endif
#include "common.h"
#include "SDCCpeeph.h"
/* first check if r0 & r1 are used by this
instruction, in which case we are in trouble */
- if ((r0iu = bitVectBitValue (ic->rUsed, R0_IDX)) &&
- (r1iu = bitVectBitValue (ic->rUsed, R1_IDX)))
- {
+ r0iu = bitVectBitValue (ic->rUsed, R0_IDX);
+ r1iu = bitVectBitValue (ic->rUsed, R1_IDX);
+ if (r0iu && r1iu) {
goto endOfWorld;
}
/* other wise this is true end of the world */
werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
"getFreePtr should never reach here");
- exit (0);
+ exit (1);
}
/*-----------------------------------------------------------------*/
aopForSym (iCode * ic, symbol * sym, bool result)
{
asmop *aop;
- memmap *space = SPEC_OCLS (sym->etype);
+ memmap *space;
+
+ wassertl (ic != NULL, "Got a null iCode");
+ wassertl (sym != NULL, "Got a null symbol");
+
+ space = SPEC_OCLS (sym->etype);
/* if already has one */
if (sym->aop)
sym = OP_SYMBOL (op);
-
/* if the type is a conditional */
if (sym->regType == REG_CND)
{
if (sym->ruonly)
{
unsigned i;
+
aop = op->aop = sym->aop = newAsmop (AOP_STR);
aop->size = getSize (sym->type);
for (i = 0; i < fReturnSizeMCS51; i++)
werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
"aopget got unsupported aop->type");
- exit (0);
+ exit (1);
}
/*-----------------------------------------------------------------*/
/* aopPut - puts a string for a aop */
{
werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
"aopPut got offset > aop->size");
- exit (0);
+ exit (1);
}
/* will assign value to value */
{
werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
"aopPut writting to code space");
- exit (0);
+ exit (1);
}
while (offset > aop->coff)
default:
werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
"aopPut got unsupported aop->type");
- exit (0);
+ exit (1);
}
}
int i;
iCode *ic;
bitVect *rsave;
- sym_link *detype;
/* look for call */
for (ic = lic; ic; ic = ic->next)
return;
}
- /* if the registers have been saved already then
+ /* if the registers have been saved already or don't need to be then
do nothing */
- if (ic->regsSaved || (OP_SYMBOL (IC_LEFT (ic))->calleeSave))
+ if (ic->regsSaved || IFFUNC_CALLEESAVES(OP_SYMBOL(IC_LEFT(ic))->type) ||
+ IFFUNC_ISNAKED(OP_SYM_TYPE(IC_LEFT (ic))))
return;
/* find the registers in use at this time
if (bitVectBitValue (rsave, i))
emitcode ("push", "%s", mcs51_regWithIdx (i)->dname);
}
-
- detype = getSpec (operandType (IC_LEFT (ic)));
-
-#if 0 // why should we do this here??? jwk20011105
- if (detype &&
- (SPEC_BANK (currFunc->etype) != SPEC_BANK (detype)) &&
- IS_ISR (currFunc->etype) &&
- !ic->bankSaved)
- saveRBank (SPEC_BANK (detype), ic, TRUE);
-#endif
-
}
+
/*-----------------------------------------------------------------*/
/* unsaveRegisters - pop the pushed registers */
/*-----------------------------------------------------------------*/
int size, offset = 0;
char *l;
+ D(emitcode (";", "genIpush"));
/* if this is not a parm push : ie. it is spill push
and spill push is always done on the local stack */
unsaveRBank (int bank, iCode * ic, bool popPsw)
{
int i;
- asmop *aop;
+ asmop *aop = NULL;
regs *r = NULL;
+ if (options.useXstack)
+ {
+ if (!ic)
+ {
+ /* Assume r0 is available for use. */
+ r = mcs51_regWithIdx (R0_IDX);;
+ }
+ else
+ {
+ aop = newAsmop (0);
+ r = getFreePtr (ic, &aop, FALSE);
+ }
+ emitcode ("mov", "%s,_spx", r->name);
+ }
+
if (popPsw)
{
if (options.useXstack)
- {
- aop = newAsmop (0);
- r = getFreePtr (ic, &aop, FALSE);
-
-
- emitcode ("mov", "%s,_spx", r->name);
+ {
emitcode ("movx", "a,@%s", r->name);
emitcode ("mov", "psw,a");
emitcode ("dec", "%s", r->name);
-
}
else
+ {
emitcode ("pop", "psw");
+ }
}
for (i = (mcs51_nRegs - 1); i >= 0; i--)
if (options.useXstack)
{
-
emitcode ("mov", "_spx,%s", r->name);
- freeAsmop (NULL, aop, ic, TRUE);
-
}
+
+ if (aop)
+ {
+ freeAsmop (NULL, aop, ic, TRUE);
+ }
}
/*-----------------------------------------------------------------*/
saveRBank (int bank, iCode * ic, bool pushPsw)
{
int i;
- asmop *aop;
+ asmop *aop = NULL;
regs *r = NULL;
if (options.useXstack)
{
-
- aop = newAsmop (0);
- r = getFreePtr (ic, &aop, FALSE);
+ if (!ic)
+ {
+ /* Assume r0 is available for use. */
+ r = mcs51_regWithIdx (R0_IDX);;
+ }
+ else
+ {
+ aop = newAsmop (0);
+ r = getFreePtr (ic, &aop, FALSE);
+ }
emitcode ("mov", "%s,_spx", r->name);
-
}
for (i = 0; i < mcs51_nRegs; i++)
emitcode ("movx", "@%s,a", r->name);
emitcode ("inc", "%s", r->name);
emitcode ("mov", "_spx,%s", r->name);
- freeAsmop (NULL, aop, ic, TRUE);
}
else
+ {
emitcode ("push", "psw");
+ }
emitcode ("mov", "psw,#0x%02x", (bank << 3) & 0x00ff);
}
- ic->bankSaved = 1;
+ if (aop)
+ {
+ freeAsmop (NULL, aop, ic, TRUE);
+ }
+
+ if (ic)
+ {
+ ic->bankSaved = 1;
+ }
}
/*-----------------------------------------------------------------*/
static void
genCall (iCode * ic)
{
- sym_link *detype;
+ sym_link *dtype;
+ bool restoreBank = FALSE;
+ bool swapBanks = FALSE;
+ D(emitcode(";", "genCall"));
/* if send set is not empty the assign */
if (_G.sendSet)
{
_G.sendSet = NULL;
}
- /* if we are calling a function that is not using
+ /* 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 */
- detype = getSpec (operandType (IC_LEFT (ic)));
- if (detype &&
- (SPEC_BANK (currFunc->etype) != SPEC_BANK (detype)) &&
- IS_ISR (currFunc->etype) &&
- !ic->bankSaved) {
- saveRBank (SPEC_BANK (detype), ic, TRUE);
- } else /* no need to save if we just saved the whole bank */ {
- /* if caller saves & we have not saved then */
- if (!ic->regsSaved)
+ dtype = operandType (IC_LEFT (ic));
+ if (dtype && !IFFUNC_ISNAKED(dtype) &&
+ (FUNC_REGBANK (currFunc->type) != FUNC_REGBANK (dtype)) &&
+ IFFUNC_ISISR (currFunc->type))
+ {
+ if (!ic->bankSaved)
+ {
+ /* This is unexpected; the bank should have been saved in
+ * genFunction.
+ */
+ saveRBank (FUNC_REGBANK (dtype), ic, FALSE);
+ restoreBank = TRUE;
+ }
+ 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 */
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);
+ }
+
/* if we need assign a result value */
if ((IS_ITEMP (IC_RESULT (ic)) &&
(OP_SYMBOL (IC_RESULT (ic))->nRegs ||
else
for (i = 0; i < ic->parmBytes; i++)
emitcode ("dec", "%s", spname);
-
}
- /* if register bank was saved then pop them */
- if (ic->bankSaved)
- unsaveRBank (SPEC_BANK (detype), ic, TRUE);
-
/* if we hade saved some registers then unsave them */
- if (ic->regsSaved && !(OP_SYMBOL (IC_LEFT (ic))->calleeSave))
+ if (ic->regsSaved && !IFFUNC_CALLEESAVES(dtype))
unsaveRegisters (ic);
-
+ /* if register bank was saved then pop them */
+ if (restoreBank)
+ unsaveRBank (FUNC_REGBANK (dtype), ic, FALSE);
}
/*-----------------------------------------------------------------*/
static void
genPcall (iCode * ic)
{
- sym_link *detype;
+ sym_link *dtype;
symbol *rlbl = newiTempLabel (NULL);
/* if we are calling a function that is not using
the same register bank then we need to save the
destination registers on the stack */
- detype = getSpec (operandType (IC_LEFT (ic)));
- if (detype &&
- IS_ISR (currFunc->etype) &&
- (SPEC_BANK (currFunc->etype) != SPEC_BANK (detype)))
- saveRBank (SPEC_BANK (detype), ic, TRUE);
+ dtype = operandType (IC_LEFT (ic));
+ if (dtype &&
+ IFFUNC_ISISR (currFunc->type) &&
+ (FUNC_REGBANK (currFunc->type) != FUNC_REGBANK (dtype)))
+ saveRBank (FUNC_REGBANK (dtype), ic, TRUE);
/* push the return address on to the stack */
}
/* if register bank was saved then unsave them */
- if (detype &&
- (SPEC_BANK (currFunc->etype) !=
- SPEC_BANK (detype)))
- unsaveRBank (SPEC_BANK (detype), ic, TRUE);
+ if (dtype &&
+ (FUNC_REGBANK (currFunc->type) !=
+ FUNC_REGBANK (dtype)))
+ unsaveRBank (FUNC_REGBANK (dtype), ic, TRUE);
/* if we hade saved some registers then
unsave them */
if (ic->regsSaved)
unsaveRegisters (ic);
-
}
/*-----------------------------------------------------------------*/
genFunction (iCode * ic)
{
symbol *sym;
- sym_link *fetype;
+ sym_link *ftype;
+ bool switchedPSW = FALSE;
_G.nRegsSaved = 0;
/* create the function header */
emitcode (";", "-----------------------------------------");
emitcode ("", "%s:", sym->rname);
- fetype = getSpec (operandType (IC_LEFT (ic)));
+ ftype = operandType (IC_LEFT (ic));
+
+ if (IFFUNC_ISNAKED(ftype))
+ {
+ emitcode(";", "naked function: no prologue.");
+ return;
+ }
/* if critical function then turn interrupts off */
- if (SPEC_CRTCL (fetype))
+ if (IFFUNC_ISCRITICAL (ftype))
emitcode ("clr", "ea");
/* here we need to generate the equates for the
register bank if required */
- if (SPEC_BANK (fetype) != rbank)
+ if (FUNC_REGBANK (ftype) != rbank)
{
int i;
- rbank = SPEC_BANK (fetype);
+ rbank = FUNC_REGBANK (ftype);
for (i = 0; i < mcs51_nRegs; i++)
{
if (strcmp (regs8051[i].base, "0") == 0)
/* if this is an interrupt service routine then
save acc, b, dpl, dph */
- if (IS_ISR (sym->etype))
+ if (IFFUNC_ISISR (sym->type))
{
if (!inExcludeList ("acc"))
/* if this isr has no bank i.e. is going to
run with bank 0 , then we need to save more
registers :-) */
- if (!SPEC_BANK (sym->etype))
+ if (!FUNC_REGBANK (sym->type))
{
/* if this function does not call any other
function then we can be economical and
save only those registers that are used */
- if (!sym->hasFcall)
+ if (!IFFUNC_HASFCALL(sym->type))
{
int i;
saveRBank (0, ic, FALSE);
}
}
+ else
+ {
+ /* This ISR uses a non-zero bank.
+ *
+ * We assume that the bank is available for our
+ * exclusive use.
+ *
+ * However, if this ISR calls a function which uses some
+ * other bank, we must save that bank entirely.
+ */
+ unsigned long banksToSave = 0;
+
+ if (IFFUNC_HASFCALL(sym->type))
+ {
+
+#define MAX_REGISTER_BANKS 4
+
+ iCode *i;
+ int ix;
+
+ for (i = ic; i; i = i->next)
+ {
+ if (i->op == ENDFUNCTION)
+ {
+ /* we got to the end OK. */
+ break;
+ }
+
+ if (i->op == CALL)
+ {
+ sym_link *dtype;
+
+ dtype = operandType (IC_LEFT(i));
+ if (dtype
+ && FUNC_REGBANK(dtype) != FUNC_REGBANK(sym->type))
+ {
+ /* Mark this bank for saving. */
+ if (FUNC_REGBANK(dtype) >= MAX_REGISTER_BANKS)
+ {
+ werror(E_NO_SUCH_BANK, FUNC_REGBANK(dtype));
+ }
+ else
+ {
+ banksToSave |= (1 << FUNC_REGBANK(dtype));
+ }
+
+ /* And note that we don't need to do it in
+ * genCall.
+ */
+ i->bankSaved = 1;
+ }
+ }
+ if (i->op == PCALL)
+ {
+ /* This is a mess; we have no idea what
+ * register bank the called function might
+ * use.
+ *
+ * The only thing I can think of to do is
+ * throw a warning and hope.
+ */
+ werror(W_FUNCPTR_IN_USING_ISR);
+ }
+ }
+
+ if (banksToSave && options.useXstack)
+ {
+ /* Since we aren't passing it an ic,
+ * saveRBank will assume r0 is available to abuse.
+ *
+ * So switch to our (trashable) bank now, so
+ * the caller's R0 isn't trashed.
+ */
+ emitcode ("push", "psw");
+ emitcode ("mov", "psw,#0x%02x",
+ (FUNC_REGBANK (sym->type) << 3) & 0x00ff);
+ switchedPSW = TRUE;
+ }
+
+ for (ix = 0; ix < MAX_REGISTER_BANKS; ix++)
+ {
+ if (banksToSave & (1 << ix))
+ {
+ saveRBank(ix, NULL, FALSE);
+ }
+ }
+ }
+ // jwk: this needs a closer look
+ SPEC_ISR_SAVED_BANKS(currFunc->etype) = banksToSave;
+ }
}
else
{
/* if callee-save to be used for this function
then save the registers being used in this function */
- if (sym->calleeSave)
+ if (IFFUNC_CALLEESAVES(sym->type))
{
int i;
}
/* set the register bank to the desired value */
- if (SPEC_BANK (sym->etype) || IS_ISR (sym->etype))
+ if ((FUNC_REGBANK (sym->type) || IFFUNC_ISISR (sym->type))
+ && !switchedPSW)
{
emitcode ("push", "psw");
- emitcode ("mov", "psw,#0x%02x", (SPEC_BANK (sym->etype) << 3) & 0x00ff);
+ emitcode ("mov", "psw,#0x%02x", (FUNC_REGBANK (sym->type) << 3) & 0x00ff);
}
- if (IS_RENT (sym->etype) || options.stackAuto)
+ if (IFFUNC_ISREENT (sym->type) || options.stackAuto)
{
if (options.useXstack)
{
symbol *sym = OP_SYMBOL (IC_LEFT (ic));
- if (IS_RENT (sym->etype) || options.stackAuto)
+ if (IFFUNC_ISNAKED(sym->type))
+ {
+ emitcode(";", "naked function: no epilogue.");
+ return;
+ }
+
+ if (IFFUNC_ISREENT (sym->type) || options.stackAuto)
{
emitcode ("mov", "%s,_bp", spname);
}
}
- if ((IS_RENT (sym->etype) || options.stackAuto))
+ if ((IFFUNC_ISREENT (sym->type) || options.stackAuto))
{
if (options.useXstack)
{
}
/* restore the register bank */
- if (SPEC_BANK (sym->etype) || IS_ISR (sym->etype))
- emitcode ("pop", "psw");
+ 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
+ * is handled below.
+ */
+ emitcode ("pop", "psw");
+ }
+ }
- if (IS_ISR (sym->etype))
+ if (IFFUNC_ISISR (sym->type))
{
/* now we need to restore the registers */
/* if this isr has no bank i.e. is going to
run with bank 0 , then we need to save more
registers :-) */
- if (!SPEC_BANK (sym->etype))
+ if (!FUNC_REGBANK (sym->type))
{
-
/* if this function does not call any other
function then we can be economical and
save only those registers that are used */
- if (!sym->hasFcall)
+ if (!IFFUNC_HASFCALL(sym->type))
{
int i;
unsaveRBank (0, ic, FALSE);
}
}
+ else
+ {
+ /* This ISR uses a non-zero bank.
+ *
+ * Restore any register banks saved by genFunction
+ * in reverse order.
+ */
+ // jwk: this needs a closer look
+ unsigned savedBanks = SPEC_ISR_SAVED_BANKS(currFunc->etype);
+ int ix;
+
+ for (ix = MAX_REGISTER_BANKS - 1; ix >= 0; ix--)
+ {
+ if (savedBanks & (1 << ix))
+ {
+ unsaveRBank(ix, NULL, FALSE);
+ }
+ }
+
+ if (options.useXstack)
+ {
+ /* Restore bank AFTER calling unsaveRBank,
+ * since it can trash r0.
+ */
+ emitcode ("pop", "psw");
+ }
+ }
if (!inExcludeList ("dph"))
emitcode ("pop", "dph");
if (!inExcludeList ("acc"))
emitcode ("pop", "acc");
- if (SPEC_CRTCL (sym->etype))
+ if (IFFUNC_ISCRITICAL (sym->type))
emitcode ("setb", "ea");
/* if debug then send end of function */
-/* if (options.debug && currFunc) { */
- if (currFunc)
+ /* if (options.debug && currFunc) */
+ if (options.debug && currFunc)
{
_G.debugLine = 1;
emitcode ("", "C$%s$%d$%d$%d ==.",
}
else
{
- if (SPEC_CRTCL (sym->etype))
+ if (IFFUNC_ISCRITICAL (sym->type))
emitcode ("setb", "ea");
- if (sym->calleeSave)
+ if (IFFUNC_CALLEESAVES(sym->type))
{
int i;
}
/* if debug then send end of function */
- if (currFunc)
+ if (options.debug && currFunc)
{
_G.debugLine = 1;
emitcode ("", "C$%s$%d$%d$%d ==.",
else
{
/* first add without previous c */
- if (!offset)
- emitcode ("add", "a,#0x%02x",
- (unsigned int) (lit & 0x0FFL));
- else
+ if (!offset) {
+ if (!size && lit==-1) {
+ emitcode ("dec", "a");
+ } else {
+ emitcode ("add", "a,#0x%02x",
+ (unsigned int) (lit & 0x0FFL));
+ }
+ } else {
emitcode ("addc", "a,#0x%02x",
(unsigned int) ((lit >> (offset * 8)) & 0x0FFL));
+ }
}
aopPut (AOP (IC_RESULT (ic)), "a", offset++);
}
symbol *lbl;
int size=AOP_SIZE(result);
- //emitcode (";",__FUNCTION__);
if (size<1 || size>2) {
// this should never happen
fprintf (stderr, "size!=1||2 (%d) in %s at line:%d \n",
//emitcode (";", "signed");
emitcode ("clr", "F0"); // reset sign flag
- emitcode ("mov", "b,%s", aopGet (AOP (right), 0, FALSE, FALSE));
MOVA (aopGet (AOP (left), 0, FALSE, FALSE));
lbl=newiTempLabel(NULL);
emitcode ("inc", "a");
emitcode ("", "%05d$:", lbl->key+100);
- emitcode ("xch", "a,b");
/* if literal */
if (AOP_TYPE(right)==AOP_LIT) {
+ signed char val=floatFromVal (AOP (right)->aopu.aop_lit);
/* AND literal negative */
- if ((int) floatFromVal (AOP (right)->aopu.aop_lit) < 0) {
- // two's complement for literal<0
- emitcode ("xrl", "PSW,#0x20"); // xrl sign flag
- emitcode ("cpl", "a");
- emitcode ("inc", "a");
+ if (val < 0) {
+ emitcode ("cpl", "F0"); // complement sign flag
+ emitcode ("mov", "b,#0x%02x", -val);
+ } else {
+ emitcode ("mov", "b,#0x%02x", val);
}
} else {
lbl=newiTempLabel(NULL);
+ emitcode ("mov", "b,a");
+ emitcode ("mov", "a,%s", aopGet (AOP (right), 0, FALSE, FALSE));
emitcode ("jnb", "acc.7,%05d$", lbl->key+100);
// right side is negative, 8-bit two's complement
- emitcode ("xrl", "PSW,#0x20"); // xrl sign flag
+ emitcode ("cpl", "F0"); // complement sign flag
emitcode ("cpl", "a");
emitcode ("inc", "a");
emitcode ("", "%05d$:", lbl->key+100);
iCode *lic = ic->next;
int isize ;
+ /* this could from a cast, e.g.: "(char xdata *) 0x7654;" */
+ if (!IS_SYMOP(op)) return NULL;
+
if (IS_BITVAR(retype)||!IS_PTR(type)) return NULL;
isize = getSize(type->next);
while (lic) {
return lic;
}
/* if the operand used or deffed */
- if (bitVectBitValue(ic->uses,op->key) || (unsigned) ic->defKey == op->key) {
+ if (bitVectBitValue(OP_USES(op),lic->key) || (unsigned) lic->defKey == op->key) {
return NULL;
}
lic = lic->next;
emitcode ("setb", "c");
while (sizer--)
{
- MOVA (aopGet (AOP (right), offset, FALSE, FALSE));
- emitcode ("anl", "a,%s",
- aopGet (AOP (left), offset, FALSE, FALSE));
+ if (AOP_TYPE(right)==AOP_REG && AOP_TYPE(left)==AOP_ACC) {
+ emitcode ("anl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE));
+ } else {
+ if (AOP_TYPE(left)==AOP_ACC) {
+ emitcode("mov", "b,a");
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE));
+ emitcode("anl", "a,b");
+ }else {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE));
+ emitcode ("anl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, FALSE));
+ }
+ }
emitcode ("jnz", "%05d$", tlbl->key + 100);
offset++;
}
emitcode ("setb", "c");
while (sizer--)
{
- MOVA (aopGet (AOP (right), offset, FALSE, FALSE));
- emitcode ("orl", "a,%s",
- aopGet (AOP (left), offset, FALSE, FALSE));
+ if (AOP_TYPE(right)==AOP_REG && AOP_TYPE(left)==AOP_ACC) {
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE));
+ } else {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE));
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, FALSE));
+ }
emitcode ("jnz", "%05d$", tlbl->key + 100);
offset++;
}
}
else
{
- MOVA (aopGet (AOP (right), offset, FALSE, FALSE));
- emitcode ("xrl", "a,%s",
- aopGet (AOP (left), offset, FALSE, FALSE));
+ if (AOP_TYPE(right)==AOP_REG && AOP_TYPE(left)==AOP_ACC) {
+ emitcode ("xrl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE));
+ } else {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE));
+ emitcode ("xrl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, FALSE));
+ }
}
emitcode ("jnz", "%05d$", tlbl->key + 100);
offset++;
_G.inLine += (!options.asmpeep);
- buffer = bp = bp1 = Safe_calloc(1, strlen(IC_INLINE(ic)+1));
+ buffer = bp = bp1 = Safe_calloc(1, strlen(IC_INLINE(ic))+1);
strcpy (buffer, IC_INLINE (ic));
/* emit each line as a code */
/* move it to the result */
size = AOP_SIZE (result);
offset = size - 1;
+ if (size == 1) { /* special case for 1 byte */
+ l = aopGet (AOP (left), offset, FALSE, FALSE);
+ MOVA (l);
+ emitcode ("rr", "a");
+ goto release;
+ }
CLRC;
while (size--)
{
MOVA (l);
}
emitcode ("mov", "acc.7,c");
+ release:
aopPut (AOP (result), "a", AOP_SIZE (result) - 1);
freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
{
l = aopGet (AOP (left), offset, FALSE, FALSE);
MOVA (l);
+ if (size == 0) { /* special case for 1 byte */
+ emitcode("rl","a");
+ goto release;
+ }
emitcode ("add", "a,acc");
if (AOP_SIZE (result) > 1)
aopPut (AOP (result), "a", offset++);
MOVA (l);
}
emitcode ("mov", "acc.0,c");
+ release:
aopPut (AOP (result), "a", 0);
freeAsmop (left, NULL, ic, TRUE);
freeAsmop (result, NULL, ic, TRUE);
break;
case 2:
- case 3:
genlshTwo (result, left, shCount);
break;
case 4:
genlshFour (result, left, shCount);
break;
+ default:
+ fprintf(stderr, "*** ack! mystery literal shift!\n");
+ break;
}
}
freeAsmop (left, NULL, ic, TRUE);
shiftRLong (operand * left, int offl,
operand * result, int sign)
{
- if (!sign)
- emitcode ("clr", "c");
+ int isSameRegs=sameRegs(AOP(left),AOP(result));
+
+ if (isSameRegs && offl>1) {
+ // we are in big trouble, but this shouldn't happen
+ werror(E_INTERNAL_ERROR, __FILE__, __LINE__);
+ }
+
MOVA (aopGet (AOP (left), MSB32, FALSE, FALSE));
- if (sign)
+
+ if (offl==MSB16) {
+ // shift is > 8
+ if (sign) {
+ emitcode ("rlc", "a");
+ emitcode ("subb", "a,acc");
+ emitcode ("xch", "a,%s", aopGet(AOP(left), MSB32, FALSE, FALSE));
+ } else {
+ aopPut (AOP(result), zero, MSB32);
+ }
+ }
+
+ if (!sign) {
+ emitcode ("clr", "c");
+ } else {
emitcode ("mov", "c,acc.7");
- emitcode ("rrc", "a");
- aopPut (AOP (result), "a", MSB32 - offl);
- if (offl == MSB16)
- /* add sign of "a" */
- addSign (result, MSB32, sign);
+ }
- MOVA (aopGet (AOP (left), MSB24, FALSE, FALSE));
emitcode ("rrc", "a");
- aopPut (AOP (result), "a", MSB24 - offl);
- MOVA (aopGet (AOP (left), MSB16, FALSE, FALSE));
+ if (isSameRegs && offl==MSB16) {
+ emitcode ("xch", "a,%s",aopGet (AOP (left), MSB24, FALSE, FALSE));
+ } else {
+ aopPut (AOP (result), "a", MSB32);
+ MOVA (aopGet (AOP (left), MSB24, FALSE, FALSE));
+ }
+
+ emitcode ("rrc", "a");
+ if (isSameRegs && offl==1) {
+ emitcode ("xch", "a,%s",aopGet (AOP (left), MSB16, FALSE, FALSE));
+ } else {
+ aopPut (AOP (result), "a", MSB24);
+ MOVA (aopGet (AOP (left), MSB16, FALSE, FALSE));
+ }
emitcode ("rrc", "a");
aopPut (AOP (result), "a", MSB16 - offl);
case CPOINTER:
emitcode ("clr", "a");
- emitcode ("movc", "a,%s", "@a+dptr");
+ emitcode ("movc", "a,@a+dptr");
break;
case GPOINTER:
case CPOINTER:
emitcode ("clr", "a");
emitcode ("inc", "dptr");
- emitcode ("movc", "a", "@a+dptr");
+ emitcode ("movc", "a,@a+dptr");
break;
case GPOINTER:
}
else
rname = aopGet (AOP (left), 0, FALSE, FALSE);
-
- aopOp (result, ic, FALSE);
+
+ //aopOp (result, ic, FALSE);
+ aopOp (result, ic, result?TRUE:FALSE);
/* if bitfield then unpack the bits */
if (IS_BITVAR (retype))
genDataPointerSet (right, result, ic);
return;
}
-
+
/* if the value is already in a pointer register
then don't need anything more */
if (!AOP_INPREG (AOP (result)))
{
- /* otherwise get a free pointer register */
- aop = newAsmop (0);
- preg = getFreePtr (ic, &aop, FALSE);
- emitcode ("mov", "%s,%s",
- preg->name,
- aopGet (AOP (result), 0, FALSE, TRUE));
- rname = preg->name;
+ if (
+ //AOP_TYPE (result) == AOP_STK
+ IS_AOP_PREG(result)
+ )
+ {
+ // Aha, it is a pointer, just in disguise.
+ rname = aopGet (AOP (result), 0, FALSE, FALSE);
+ if (*rname != '@')
+ {
+ fprintf(stderr, "probable internal error: unexpected rname @ %s:%d\n",
+ __FILE__, __LINE__);
+ }
+ else
+ {
+ // Expected case.
+ rname++; // skip the '@'.
+ }
+ }
+ else
+ {
+ /* otherwise get a free pointer register */
+ aop = newAsmop (0);
+ preg = getFreePtr (ic, &aop, FALSE);
+ emitcode ("mov", "%s,%s",
+ preg->name,
+ aopGet (AOP (result), 0, FALSE, TRUE));
+ rname = preg->name;
+ }
+ }
+ else
+ {
+ rname = aopGet (AOP (result), 0, FALSE, FALSE);
}
- else
- rname = aopGet (AOP (result), 0, FALSE, FALSE);
aopOp (right, ic, FALSE);
-
+
/* if bitfield then unpack the bits */
if (IS_BITVAR (retype) || IS_BITVAR (letype))
genPackBits ((IS_BITVAR (retype) ? retype : letype), right, rname, POINTER);
int size, offset;
unsigned long lit = 0L;
+ D(emitcode(";","genAssign"));
+
result = IC_RESULT (ic);
right = IC_RIGHT (ic);
operand *right = IC_RIGHT (ic);
int size, offset;
+ D(emitcode(";", "genCast"));
+
/* if they are equivalent then do nothing */
if (operandsEqu (IC_RESULT (ic), IC_RIGHT (ic)))
return;
aopOp (result, ic, FALSE);
/* if the result is a bit */
- if (AOP_TYPE (result) == AOP_CRY)
+ // if (AOP_TYPE (result) == AOP_CRY /* works only for true symbols */
+ if (IS_BITVAR(OP_SYMBOL(result)->type))
{
/* if the right size is a literal then
we know what the value is */
p_type = DCL_TYPE (type);
else
{
- /* we have to go by the storage class */
- p_type = PTR_TYPE (SPEC_OCLS (etype));
+ if (SPEC_SCLS(etype)==S_REGISTER) {
+ // let's assume it is a generic pointer
+ p_type=GPOINTER;
+ } else {
+ /* we have to go by the storage class */
+ p_type = PTR_TYPE (SPEC_OCLS (etype));
+ }
}
/* the first two bytes are known */
case CPOINTER:
l = "#0x02";
break;
- case PPOINTER:
+ case GPOINTER:
+ l = "0x03";
+ break;
+ case PPOINTER: // what the fck is this?
l = "#0x03";
break;
/* now depending on the sign of the source && destination */
size = AOP_SIZE (result) - AOP_SIZE (right);
/* if unsigned or not an integral type */
- if (SPEC_USIGN (rtype) || !IS_SPEC (rtype))
+ if (SPEC_USIGN (rtype) || !IS_SPEC (rtype) || AOP_TYPE(right)==AOP_CRY)
{
while (size--)
aopPut (AOP (result), zero, offset++);
freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
}
+/*-----------------------------------------------------------------*/
+/* gen51AggregateAssign - copy complete array's or structures */
+/*-----------------------------------------------------------------*/
+void gen51AggregateAssign(iCode *ic) {
+ operand *left=IC_LEFT(ic);
+ operand *right=IC_RIGHT(ic);
+ char *fromName=OP_SYMBOL(right)->rname;
+ char *toName=OP_SYMBOL(left)->rname;
+ int fromSize=getSize(OP_SYMBOL(right)->type);
+ int toSize=getSize(OP_SYMBOL(left)->type);
+ int count=toSize;
+
+ if (SPEC_OCLS(OP_SYMBOL(left)->etype)!=xdata ||
+ SPEC_OCLS(OP_SYMBOL(right)->etype)!=code) {
+ // well, this code isn't used yet from anywhere else as for initialising
+ fprintf (stderr, "*** error: %s:%d can only assign aggregates from cseg to xseg for now\n", ic->filename, ic->lineno);
+ exit (457);
+ }
+
+ if (fromSize!=toSize) {
+ fprintf (stderr, "*** error: %s:%d aggregates have different size\n",
+ ic->filename, ic->lineno);
+ exit (821);
+ }
+
+#if 1
+ // use the generic memcpy() for now
+ emitcode (";", "initialize %s", OP_SYMBOL(IC_LEFT(ic))->name);
+ emitcode ("mov", "dptr,#_memcpy_PARM_2");
+ emitcode ("mov", "a,#%s", fromName);
+ emitcode ("movx", "@dptr,a");
+ emitcode ("inc", "dptr");
+ emitcode ("mov", "a,#(%s>>8)", fromName);
+ emitcode ("movx", "@dptr,a");
+ emitcode ("inc", "dptr");
+ emitcode ("mov", "a,#%02x; only from cseg for now", 2);
+ emitcode ("movx", "@dptr,a");
+ emitcode ("mov", "dptr,#_memcpy_PARM_3");
+ emitcode ("mov", "a,#(%d>>0); number of bytes", count);
+ emitcode ("movx", "@dptr,a");
+ emitcode ("inc", "dptr");
+ emitcode ("mov", "a,#(%d>>8)", count);
+ emitcode ("movx", "@dptr,a");
+ emitcode ("mov", "dptr,#%s", toName);
+ emitcode ("mov", "b,#%02x; only to xseg for now", 1);
+ emitcode ("lcall", "_memcpy");
+#else
+ // more efficient, but will require the native_memcpy_cs2xs
+ emitcode ("mov", "r0,#%s", fromName);
+ emitcode ("mov", "r1,#(%s>>8)", fromName);
+ emitcode ("mov", "r2,#%s", toName);
+ emitcode ("mov", "r3,#(%s>>8)", toName);
+ emitcode ("mov", "r4,#%d", count);
+ emitcode ("mov", "r5,#(%d>>8)", count);
+ emitcode ("lcall", "_native_memcpy_cs2xs");
+#endif
+}
+
/*-----------------------------------------------------------------*/
/* gen51Code - generate code for 8051 based controllers */
/*-----------------------------------------------------------------*/
if (allocInfo)
printAllocInfo (currFunc, codeOutFile);
/* if debug information required */
-/* if (options.debug && currFunc) { */
- if (currFunc)
+ /* if (options.debug && currFunc) { */
+ if (options.debug && currFunc)
{
cdbSymbol (currFunc, cdbFile, FALSE, TRUE);
_G.debugLine = 1;
addSet (&_G.sendSet, ic);
break;
+ case ARRAYINIT:
+ gen51AggregateAssign(ic);
+ break;
+
default:
ic = ic;
}