int lineno;
int block;
int scopeLevel;
-int lvaluereq;
symbol *returnLabel; /* function return label */
symbol *entryLabel; /* function entry label */
/* forward definition of some functions */
operand *geniCodeDivision (operand *, operand *);
operand *geniCodeAssign (operand *, operand *, int);
-operand *geniCodeArray (operand *, operand *);
+operand *geniCodeArray (operand *, operand *,int);
operand *geniCodeArray2Ptr (operand *);
operand *geniCodeRValue (operand *, bool);
-operand *geniCodeDerefPtr (operand *);
+operand *geniCodeDerefPtr (operand *,int);
+int isLvaluereq(int lvl);
#define PRINTFUNC(x) void x (FILE *of, iCode *ic, char *s)
-/* forward definition of print functions */
+/* forward definition of ic print functions */
PRINTFUNC (picGetValueAtAddr);
PRINTFUNC (picSetValueAtAddr);
PRINTFUNC (picAddrOf);
return 1;
}
+void PICC(iCode *ic)
+{
+ printiCChain(ic,stdout);
+}
/*-----------------------------------------------------------------*/
/* printiCChain - prints intermediate code for humans */
/*-----------------------------------------------------------------*/
itmplbl->isitmp = 1;
itmplbl->islbl = 1;
itmplbl->key = labelKey++;
- addSym (LabelTab, itmplbl, itmplbl->name, 0, 0);
+ addSym (LabelTab, itmplbl, itmplbl->name, 0, 0, 0);
return itmplbl;
}
itmplbl->isitmp = 1;
itmplbl->islbl = 1;
itmplbl->key = labelKey++;
- addSym (LabelTab, itmplbl, itmplbl->name, 0, 0);
+ addSym (LabelTab, itmplbl, itmplbl->name, 0, 0, 0);
return itmplbl;
}
operandOperation (operand * left, operand * right,
int op, sym_link * type)
{
+ sym_link *let , *ret=NULL;
operand *retval = (operand *) 0;
-
+
assert (isOperandLiteral (left));
- if (right)
+ let = getSpec(operandType(left));
+ if (right) {
assert (isOperandLiteral (right));
+ ret = getSpec(operandType(left));
+ }
switch (op)
{
operandLitValue (right)));
break;
case '%':
- if ((unsigned long) operandLitValue (right) == 0)
- {
+ if ((unsigned long) operandLitValue (right) == 0) {
werror (E_DIVIDE_BY_ZERO);
retval = right;
- }
- else
- retval = operandFromLit ((unsigned long) operandLitValue (left) %
- (unsigned long) operandLitValue (right));
+ }
+ else
+ retval = operandFromLit ((SPEC_USIGN(let) ?
+ (unsigned long) operandLitValue (left) :
+ (long) operandLitValue (left)) %
+ (SPEC_USIGN(ret) ?
+ (unsigned long) operandLitValue (right) :
+ (long) operandLitValue (right)));
+
break;
case LEFT_OP:
- retval = operandFromLit ((unsigned long) operandLitValue (left) <<
- (unsigned long) operandLitValue (right));
+ retval = operandFromLit (((SPEC_USIGN(let) ?
+ (unsigned long) operandLitValue (left) :
+ (long) operandLitValue (left)) <<
+ (SPEC_USIGN(ret) ?
+ (unsigned long) operandLitValue (right) :
+ (long) operandLitValue (right))));
break;
case RIGHT_OP:
- retval = operandFromLit ((unsigned long) operandLitValue (left) >>
- (unsigned long) operandLitValue (right));
+ retval = operandFromLit (((SPEC_USIGN(let) ?
+ (unsigned long) operandLitValue (left) :
+ (long) operandLitValue (left)) >>
+ (SPEC_USIGN(ret) ?
+ (unsigned long) operandLitValue (right) :
+ (long) operandLitValue (right))));
break;
case EQ_OP:
retval = operandFromLit (operandLitValue (left) ==
break;
case RRC:
{
- long i = operandLitValue (left);
+ long i = (long) operandLitValue (left);
retval = operandFromLit ((i >> (getSize (operandType (left)) * 8 - 1)) |
(i << 1));
break;
case RLC:
{
- long i = operandLitValue (left);
+ long i = (long) operandLitValue (left);
retval = operandFromLit ((i << (getSize (operandType (left)) * 8 - 1)) |
(i >> 1));
return (floatFromVal (left->operand.valOperand) ==
floatFromVal (right->operand.valOperand));
case TYPE:
- if (checkType (left->operand.typeOperand,
+ if (compareType (left->operand.typeOperand,
right->operand.typeOperand) == 1)
return 1;
}
/* under the following conditions create a
register equivalent for a local symbol */
if (sym->level && sym->etype && SPEC_OCLS (sym->etype) &&
- (IN_FARSPACE (SPEC_OCLS (sym->etype)) && (!IS_DS390_PORT)) &&
+ (IN_FARSPACE (SPEC_OCLS (sym->etype)) && (!TARGET_IS_DS390)) &&
options.stackAuto == 0)
ok = 0;
/* operandFromLit - makes an operand from a literal value */
/*-----------------------------------------------------------------*/
operand *
-operandFromLit (float i)
+operandFromLit (double i)
{
return operandFromValue (valueFromLit (i));
}
/* operandFromAst - creates an operand from an ast */
/*-----------------------------------------------------------------*/
operand *
-operandFromAst (ast * tree)
+operandFromAst (ast * tree,int lvl)
{
if (!tree)
switch (tree->type)
{
case EX_OP:
- return ast2iCode (tree);
+ return ast2iCode (tree,lvl+1);
break;
case EX_VALUE:
}
}
+/*-----------------------------------------------------------------*/
+/* Get size in byte of ptr need to access an array */
+/*-----------------------------------------------------------------*/
+int
+getArraySizePtr (operand * op)
+{
+ sym_link *ltype = operandType(op);
+
+ if(IS_PTR(ltype))
+ {
+ int size = getSize(ltype);
+ return(IS_GENPTR(ltype)?(size-1):size);
+ }
+
+ if(IS_ARRAY(ltype))
+ {
+ sym_link *letype = getSpec(ltype);
+ switch (PTR_TYPE (SPEC_OCLS (letype)))
+ {
+ case IPOINTER:
+ case PPOINTER:
+ case POINTER:
+ return (PTRSIZE);
+ case EEPPOINTER:
+ case FPOINTER:
+ case CPOINTER:
+ case FUNCTION:
+ return (FPTRSIZE);
+ case GPOINTER:
+ return (GPTRSIZE-1);
+
+ default:
+ return (FPTRSIZE);
+ }
+ }
+ return (FPTRSIZE);
+}
/*-----------------------------------------------------------------*/
/* perform "usual unary conversions" */
{
if (IS_INTEGRAL (operandType (op)))
{
- if (getSize (operandType (op)) < INTSIZE)
+ if (getSize (operandType (op)) < (unsigned int) INTSIZE)
{
/* Widen to int. */
return geniCodeCast (INTTYPE, op, TRUE);
sym_link *
usualBinaryConversions (operand ** op1, operand ** op2)
{
- if (!options.ANSIint)
- {
- /* "Classic" SDCC behavior. */
- sym_link *ctype;
- sym_link *rtype = operandType (*op2);
- sym_link *ltype = operandType (*op1);
-
- ctype = computeType (ltype, rtype);
- *op1 = geniCodeCast (ctype, *op1, TRUE);
- *op2 = geniCodeCast (ctype, *op2, TRUE);
-
- return ctype;
- }
-
- *op1 = usualUnaryConversions (*op1);
- *op2 = usualUnaryConversions (*op2);
-
- /* Try to make the two operands of the same type, following
- * the "usual binary conversions" promotion rules.
- *
- * NB: floating point types are not yet properly handled; we
- * follow the "classic" behavior.
- */
-
- if (IS_FLOAT (operandType (*op1)) || IS_FLOAT (operandType (*op2)))
- {
- return newFloatLink ();
- }
-
- if (!IS_INTEGRAL (operandType (*op1)) || !IS_INTEGRAL (operandType (*op2)))
- {
- /* if either is not an integer type, we're done. */
- return copyLinkChain (operandType (*op1)); /* Punt! we should never get here. */
- }
-
- /* If either is an unsigned long, make sure both are. */
- if (SPEC_USIGN (operandType (*op1)) && IS_LONG (operandType (*op1)))
- {
- if (!SPEC_USIGN (operandType (*op2)) || !IS_LONG (operandType (*op2)))
- {
- *op2 = geniCodeCast (ULONGTYPE, *op2, TRUE);
- }
- return copyLinkChain (operandType (*op1));
- }
-
- if (SPEC_USIGN (operandType (*op2)) && IS_LONG (operandType (*op2)))
- {
- if (!SPEC_USIGN (operandType (*op1)) || !IS_LONG (operandType (*op1)))
- {
- *op1 = geniCodeCast (ULONGTYPE, *op1, TRUE);
- }
- return copyLinkChain (operandType (*op2));
- }
-
- /* Next, if one is long and the other is int (signed or un),
- * cast both to long.
- *
- * Note that because in our environment a long can hold all
- * the values of an unsigned int, the "long/unsigned int" pair
- * in the ANSI conversion table is unnecessary; this test
- * handles that case implicitly.
- */
- if (IS_LONG (operandType (*op1)))
- {
- /* NB: because of the unary conversions, op2 cannot
- * be smaller than int. Therefore, if it is not
- * long, it is a regular int.
- */
- if (!IS_LONG (operandType (*op2)))
- {
- *op2 = geniCodeCast (LONGTYPE, *op2, TRUE);
- }
- return copyLinkChain (operandType (*op1));
- }
-
- if (IS_LONG (operandType (*op2)))
- {
- /* NB: because of the unary conversions, op2 cannot
- * be smaller than int. Therefore, if it is not
- * long, it is a regular int.
- */
- if (!IS_LONG (operandType (*op1)))
- {
- *op1 = geniCodeCast (LONGTYPE, *op1, TRUE);
- }
- return copyLinkChain (operandType (*op2));
- }
-
- /* All right, neither is long; they must both be integers.
-
- * Only remaining issue is signed vs. unsigned; if one is unsigned
- * and the other isn't, convert both to unsigned.
- */
- if (SPEC_USIGN (operandType (*op1)))
- {
- if (!SPEC_USIGN (operandType (*op2)))
- {
- *op2 = geniCodeCast (UINTTYPE, *op2, TRUE);
- }
- return copyLinkChain (operandType (*op1));
- }
-
- if (SPEC_USIGN (operandType (*op2)))
- {
- if (!SPEC_USIGN (operandType (*op1)))
- {
- *op1 = geniCodeCast (UINTTYPE, *op1, TRUE);
- }
- return copyLinkChain (operandType (*op2));
- }
-
- /* Done! */
- return copyLinkChain (operandType (*op1));
+ sym_link *ctype;
+ sym_link *rtype = operandType (*op2);
+ sym_link *ltype = operandType (*op1);
+
+ ctype = computeType (ltype, rtype);
+ *op1 = geniCodeCast (ctype, *op1, TRUE);
+ *op2 = geniCodeCast (ctype, *op2, TRUE);
+
+ return ctype;
}
-
/*-----------------------------------------------------------------*/
/* geniCodeValueAtAddress - generate intermeditate code for value */
/* at address */
if (IS_SPEC (type) &&
IS_TRUE_SYMOP (op) &&
- (!IN_FARSPACE (SPEC_OCLS (etype)) || IS_DS390_PORT))
+ (!IN_FARSPACE (SPEC_OCLS (etype)) || TARGET_IS_DS390))
{
op = operandFromOperand (op);
op->isaddr = 0;
}
/* if the operand is already the desired type then do nothing */
- if (checkType (type, optype) == 1)
+ if (compareType (type, optype) == 1)
return op;
/* if this is a literal then just change the type & return */
!IS_GENPTR (type))
{
werror (E_INCOMPAT_CAST);
- werror (E_CONTINUE, "from type '");
+ fprintf (stderr, "from type '");
printTypeChain (optype, stderr);
fprintf (stderr, "' to type '");
printTypeChain (type, stderr);
/* geniCodeMultiply - gen intermediate code for multiplication */
/*-----------------------------------------------------------------*/
operand *
-geniCodeMultiply (operand * left, operand * right, bool ptrSizeCalculation,
- int resultIsInt)
+geniCodeMultiply (operand * left, operand * right,int resultIsInt)
{
iCode *ic;
int p2 = 0;
- int saveOption;
sym_link *resType;
LRTYPE;
return operandFromValue (valMult (left->operand.valOperand,
right->operand.valOperand));
+ if (IS_LITERAL(retype)) {
+ p2 = powof2 ((unsigned long) floatFromVal (right->operand.valOperand));
+ }
- //Force 1 byte * 1 byte = 2 bytes result if we are computing ptr size
- if ((ptrSizeCalculation) && (1 == getSize (rtype)) &&
- (1 == getSize (ltype)))
+ resType = usualBinaryConversions (&left, &right);
+#if 1
+ rtype = operandType (right);
+ retype = getSpec (rtype);
+ ltype = operandType (left);
+ letype = getSpec (ltype);
+#endif
+ if (resultIsInt)
{
- saveOption = options.ANSIint;
- options.ANSIint = 0;
- resType = usualBinaryConversions (&left, &right);
- ltype = operandType (left);
- rtype = operandType (right);
- SPEC_SHORT (getSpec (resType)) = 0;
- options.ANSIint = saveOption;
- }
- else {
- resType = usualBinaryConversions (&left, &right);
- /* if (IS_DS390_PORT) { */
- /* jwk char*char=int
- Now be can use the 16bit result of "mul a,b" instead of explicit
- casts and support function calls as with --ansiint
- */
- /* if ((IS_CHAR(letype) || IS_SHORT(letype)) && */
- /* (IS_CHAR(retype) || IS_SHORT(retype))) { */
- if (resultIsInt) {
- SPEC_NOUN(getSpec(resType))=V_INT;
- SPEC_SHORT(getSpec(resType))=0;
- }
- }
-/* } */
+ SPEC_NOUN(getSpec(resType))=V_INT;
+ }
/* if the right is a literal & power of 2 */
/* then make it a left shift */
- /*If we are computing ptr size then normal multiplication */
- /*code generated for 1 byte * 1 byte literal = 2 bytes result is more efficient in most cases */
- /*than 2 bytes result = 2 bytes << literal if port as 1 byte muldiv */
- if (IS_LITERAL (retype) && !IS_FLOAT (letype) &&
- !((ptrSizeCalculation) && (getSize (resType) != getSize (ltype)) && (1 == port->muldiv.native_below)) &&
- (p2 = powof2 ((unsigned long) floatFromVal (right->operand.valOperand))))
- {
- if ((ptrSizeCalculation) && (getSize (resType) != getSize (ltype)))
+ /* code generated for 1 byte * 1 byte literal = 2 bytes result is more
+ efficient in most cases than 2 bytes result = 2 bytes << literal
+ if port has 1 byte muldiv */
+ if (p2 && !IS_FLOAT (letype) &&
+ !((resultIsInt) && (getSize (resType) != getSize (ltype)) &&
+ (port->support.muldiv == 1)))
+ {
+ if ((resultIsInt) && (getSize (resType) != getSize (ltype)))
{
/* LEFT_OP need same size for left and result, */
left = geniCodeCast (resType, left, TRUE);
ltype = operandType (left);
}
- ic = newiCode (LEFT_OP, left, operandFromLit (p2)); /* left shift */
+ ic = newiCode (LEFT_OP, left, operandFromLit (p2)); /* left shift */
}
else
{
if (IS_LITERAL (retype) &&
!IS_FLOAT (letype) &&
(p2 = powof2 ((unsigned long)
- floatFromVal (right->operand.valOperand))))
- ic = newiCode (RIGHT_OP, left, operandFromLit (p2)); /* right shift */
+ floatFromVal (right->operand.valOperand)))) {
+ ic = newiCode (RIGHT_OP, left, operandFromLit (p2)); /* right shift */
+ }
else
{
ic = newiCode ('/', left, right); /* normal division */
{
isarray = left->isaddr;
right = geniCodeMultiply (right,
- operandFromLit (getSize (ltype->next)), TRUE, FALSE);
+ operandFromLit (getSize (ltype->next)), (getArraySizePtr(left) >= INTSIZE));
resType = copyLinkChain (IS_ARRAY (ltype) ? ltype->next : ltype);
}
else
/* geniCodeAdd - generates iCode for addition */
/*-----------------------------------------------------------------*/
operand *
-geniCodeAdd (operand * left, operand * right)
+geniCodeAdd (operand * left, operand * right,int lvl)
{
iCode *ic;
sym_link *resType;
/* if left is an array then array access */
if (IS_ARRAY (ltype))
- return geniCodeArray (left, right);
+ return geniCodeArray (left, right,lvl);
/* if the right side is LITERAL zero */
/* return the left side */
/* if left is an array or pointer then size */
if (IS_PTR (ltype))
{
-
isarray = left->isaddr;
- size =
- operandFromLit (getSize (ltype->next));
-
- right = geniCodeMultiply (right, size, (getSize (ltype) != 1),FALSE);
-
+ // there is no need to multiply with 1
+ if (getSize(ltype->next)!=1) {
+ size = operandFromLit (getSize (ltype->next));
+ right = geniCodeMultiply (right, size, (getArraySizePtr(left) >= INTSIZE));
+ }
resType = copyLinkChain (ltype);
}
else
/* geniCodeArray - array access */
/*-----------------------------------------------------------------*/
operand *
-geniCodeArray (operand * left, operand * right)
+geniCodeArray (operand * left, operand * right,int lvl)
{
iCode *ic;
sym_link *ltype = operandType (left);
{
left = geniCodeRValue (left, FALSE);
}
- return geniCodeDerefPtr (geniCodeAdd (left, right));
+ return geniCodeDerefPtr (geniCodeAdd (left, right,lvl),lvl);
}
- /* array access */
right = geniCodeMultiply (right,
- operandFromLit (getSize (ltype->next)), TRUE,FALSE);
+ operandFromLit (getSize (ltype->next)), (getArraySizePtr(left) >= INTSIZE));
/* we can check for limits here */
if (isOperandLiteral (right) &&
/* geniCodeDerefPtr - dereference pointer with '*' */
/*-----------------------------------------------------------------*/
operand *
-geniCodeDerefPtr (operand * op)
+geniCodeDerefPtr (operand * op,int lvl)
{
sym_link *rtype, *retype;
sym_link *optype = operandType (op);
}
/* now get rid of the pointer part */
- if (lvaluereq && IS_ITEMP (op))
+ if (isLvaluereq(lvl) && IS_ITEMP (op))
{
retype = getSpec (rtype = copyLinkChain (optype));
}
IS_CHAR (rtype) ||
IS_FLOAT (rtype));
- if (!lvaluereq)
+ if (!isLvaluereq(lvl))
op = geniCodeRValue (op, TRUE);
setOperandType (op, rtype);
{
iCode *ic;
-
- /* Note that we don't use the usual binary conversions for the
- * shift operations, in accordance with our ANSI friends.
- */
- if (options.ANSIint)
- {
- right = usualUnaryConversions (right);
- left = usualUnaryConversions (left);
- }
-
ic = newiCode (LEFT_OP, left, right);
IC_RESULT (ic) = newiTempOperand (operandType (left), 0);
ADDTOCHAIN (ic);
{
iCode *ic;
-
- /* Note that we don't use the usual binary conversions for the
- * shift operations, in accordance with our ANSI friends.
- */
- if (options.ANSIint)
- {
- right = usualUnaryConversions (right);
- left = usualUnaryConversions (left);
- }
-
ic = newiCode (RIGHT_OP, left, right);
IC_RESULT (ic) = newiTempOperand (operandType (left), 0);
ADDTOCHAIN (ic);
if (IS_INTEGRAL (ltype) && IS_LITERAL (rtype))
{
int nbits = bitsForType (ltype);
- long v = operandLitValue (right);
+ long v = (long) operandLitValue (right);
- if (v > ((LONG_LONG) 1 << nbits) && v > 0)
+ if (v >= ((LONG_LONG) 1 << nbits) && v > 0)
werror (W_CONST_RANGE, " compare operation ");
}
ic = newiCode (op, left, right);
IC_RESULT (ic) = newiTempOperand (newCharLink (), 1);
- /* if comparing anything greater than one byte
+ /* if comparing float
and not a '==' || '!=' || '&&' || '||' (these
will be inlined */
- if (getSize (ctype) > 1 &&
+ if (IS_FLOAT(ctype) &&
op != EQ_OP &&
op != NE_OP &&
op != AND_OP &&
/* geniCodeConditional - geniCode for '?' ':' operation */
/*-----------------------------------------------------------------*/
operand *
-geniCodeConditional (ast * tree)
+geniCodeConditional (ast * tree,int lvl)
{
iCode *ic;
symbol *falseLabel = newiTempLabel (NULL);
symbol *exitLabel = newiTempLabel (NULL);
- operand *cond = ast2iCode (tree->left);
+ operand *cond = ast2iCode (tree->left,lvl+1);
operand *true, *false, *result;
ic = newiCodeCondition (geniCodeRValue (cond, FALSE),
NULL, falseLabel);
ADDTOCHAIN (ic);
- true = ast2iCode (tree->right->left);
+ true = ast2iCode (tree->right->left,lvl+1);
/* move the value to a new Operand */
result = newiTempOperand (operandType (true), 0);
/* now for the right side */
geniCodeLabel (falseLabel);
- false = ast2iCode (tree->right->right);
+ false = ast2iCode (tree->right->right,lvl+1);
geniCodeAssign (result, geniCodeRValue (false, FALSE), 0);
/* create the exit label */
if (IS_INTEGRAL (ltype) && right->type == VALUE && IS_LITERAL (rtype))
{
int nbits = bitsForType (ltype);
- long v = operandLitValue (right);
+ long v = (long) operandLitValue (right);
- if (v > ((LONG_LONG) 1 << nbits) && v > 0)
+ if (v >= ((LONG_LONG) 1 << nbits) && v > 0)
werror (W_CONST_RANGE, " = operation");
}
/* first check the type for pointer assignement */
if (left->isaddr && IS_PTR (ltype) && IS_ITEMP (left) &&
- checkType (ltype, rtype) < 0)
+ compareType (ltype, rtype) < 0)
{
- if (checkType (ltype->next, rtype) < 0)
+ if (compareType (ltype->next, rtype) < 0)
right = geniCodeCast (ltype->next, right, TRUE);
}
- else if (checkType (ltype, rtype) < 0)
+ else if (compareType (ltype, rtype) < 0)
right = geniCodeCast (ltype, right, TRUE);
/* if left is a true symbol & ! volatile
/* geniCodeSEParms - generate code for side effecting fcalls */
/*-----------------------------------------------------------------*/
static void
-geniCodeSEParms (ast * parms)
+geniCodeSEParms (ast * parms,int lvl)
{
if (!parms)
return;
if (parms->type == EX_OP && parms->opval.op == PARAM)
{
- geniCodeSEParms (parms->left);
- geniCodeSEParms (parms->right);
+ geniCodeSEParms (parms->left,lvl);
+ geniCodeSEParms (parms->right,lvl);
return;
}
parms->right->left->lvalue = 1;
parms->opval.oprnd =
- geniCodeRValue (ast2iCode (parms), FALSE);
+ geniCodeRValue (ast2iCode (parms,lvl+1), FALSE);
parms->type = EX_OPERAND;
}
/* geniCodeParms - generates parameters */
/*-----------------------------------------------------------------*/
static void
-geniCodeParms (ast * parms, int *stack, sym_link * fetype, symbol * func)
+geniCodeParms (ast * parms, int *stack, sym_link * fetype, symbol * func,int lvl)
{
iCode *ic;
operand *pval;
/* if this is a param node then do the left & right */
if (parms->type == EX_OP && parms->opval.op == PARAM)
{
- geniCodeParms (parms->left, stack, fetype, func);
- geniCodeParms (parms->right, stack, fetype, func);
+ geniCodeParms (parms->left, stack, fetype, func,lvl);
+ geniCodeParms (parms->right, stack, fetype, func,lvl);
return;
}
IS_ADDRESS_OF_OP (parms->right))
parms->right->left->lvalue = 1;
- pval = geniCodeRValue (ast2iCode (parms), FALSE);
+ pval = geniCodeRValue (ast2iCode (parms,lvl+1), FALSE);
}
/* if register parm then make it a send */
/* geniCodeCall - generates temp code for calling */
/*-----------------------------------------------------------------*/
operand *
-geniCodeCall (operand * left, ast * parms)
+geniCodeCall (operand * left, ast * parms,int lvl)
{
iCode *ic;
operand *result;
/* take care of parameters with side-effecting
function calls in them, this is required to take care
of overlaying function parameters */
- geniCodeSEParms (parms);
+ geniCodeSEParms (parms,lvl);
/* first the parameters */
- geniCodeParms (parms, &stack, getSpec (operandType (left)), OP_SYMBOL (left));
+ geniCodeParms (parms, &stack, getSpec (operandType (left)), OP_SYMBOL (left),lvl);
/* now call : if symbol then pcall */
- if (IS_OP_POINTER (left))
+ if (IS_OP_POINTER (left) || IS_ITEMP(left))
ic = newiCode (PCALL, left, NULL);
else
ic = newiCode (CALL, left, NULL);
if (IN_FARSPACE (SPEC_OCLS (sym->etype)) &&
options.stackAuto == 0 &&
- !IS_DS390_PORT)
+ !TARGET_IS_DS390)
{
}
else
/* geniCodeFunctionBody - create the function body */
/*-----------------------------------------------------------------*/
void
-geniCodeFunctionBody (ast * tree)
+geniCodeFunctionBody (ast * tree,int lvl)
{
iCode *ic;
operand *func;
iTempLblNum = 0;
operandKey = 0;
iCodeKey = 0;
- func = ast2iCode (tree->left);
+ func = ast2iCode (tree->left,lvl+1);
fetype = getSpec (operandType (func));
savelineno = lineno;
geniCodeReceive (tree->values.args);
/* generate code for the body */
- ast2iCode (tree->right);
+ ast2iCode (tree->right,lvl+1);
/* create a label for return */
geniCodeLabel (returnLabel);
/* geniCodeIfx - generates code for extended if statement */
/*-----------------------------------------------------------------*/
void
-geniCodeIfx (ast * tree)
+geniCodeIfx (ast * tree,int lvl)
{
iCode *ic;
- operand *condition = ast2iCode (tree->left);
+ operand *condition = ast2iCode (tree->left,lvl+1);
sym_link *cetype;
/* if condition is null then exit */
}
exit:
- ast2iCode (tree->right);
+ ast2iCode (tree->right,lvl+1);
}
/*-----------------------------------------------------------------*/
/* geniCodeSwitch - changes a switch to a if statement */
/*-----------------------------------------------------------------*/
void
-geniCodeSwitch (ast * tree)
+geniCodeSwitch (ast * tree,int lvl)
{
iCode *ic;
- operand *cond = geniCodeRValue (ast2iCode (tree->left), FALSE);
+ operand *cond = geniCodeRValue (ast2iCode (tree->left,lvl+1), FALSE);
value *caseVals = tree->values.switchVals.swVals;
symbol *trueLabel, *falseLabel;
geniCodeGoto (falseLabel);
jumpTable:
- ast2iCode (tree->right);
+ ast2iCode (tree->right,lvl+1);
}
/*-----------------------------------------------------------------*/
ADDTOCHAIN (ic);
}
+/*-----------------------------------------------------------------*/
+/* Stuff used in ast2iCode to modify geniCodeDerefPtr in some */
+/* particular case. Ie : assigning or dereferencing array or ptr */
+/*-----------------------------------------------------------------*/
+set * lvaluereqSet = NULL;
+typedef struct lvalItem
+ {
+ int req;
+ int lvl;
+ }
+lvalItem;
+
+/*-----------------------------------------------------------------*/
+/* addLvaluereq - add a flag for lvalreq for current ast level */
+/*-----------------------------------------------------------------*/
+void addLvaluereq(int lvl)
+{
+ lvalItem * lpItem = (lvalItem *)Safe_calloc (1, sizeof (lvalItem));
+ lpItem->req=1;
+ lpItem->lvl=lvl;
+ addSetHead(&lvaluereqSet,lpItem);
+
+}
+/*-----------------------------------------------------------------*/
+/* delLvaluereq - del a flag for lvalreq for current ast level */
+/*-----------------------------------------------------------------*/
+void delLvaluereq()
+{
+ lvalItem * lpItem;
+ lpItem = getSet(&lvaluereqSet);
+ if(lpItem) free(lpItem);
+}
+/*-----------------------------------------------------------------*/
+/* clearLvaluereq - clear lvalreq flag */
+/*-----------------------------------------------------------------*/
+void clearLvaluereq()
+{
+ lvalItem * lpItem;
+ lpItem = peekSet(lvaluereqSet);
+ if(lpItem) lpItem->req = 0;
+}
+/*-----------------------------------------------------------------*/
+/* getLvaluereq - get the last lvalreq level */
+/*-----------------------------------------------------------------*/
+int getLvaluereqLvl()
+{
+ lvalItem * lpItem;
+ lpItem = peekSet(lvaluereqSet);
+ if(lpItem) return lpItem->lvl;
+ return 0;
+}
+/*-----------------------------------------------------------------*/
+/* isLvaluereq - is lvalreq valid for this level ? */
+/*-----------------------------------------------------------------*/
+int isLvaluereq(int lvl)
+{
+ lvalItem * lpItem;
+ lpItem = peekSet(lvaluereqSet);
+ if(lpItem) return ((lpItem->req)&&(lvl <= (lpItem->lvl+1)));
+ return 0;
+}
+
/*-----------------------------------------------------------------*/
/* ast2iCode - creates an icodeList from an ast */
/*-----------------------------------------------------------------*/
operand *
-ast2iCode (ast * tree)
+ast2iCode (ast * tree,int lvl)
{
operand *left = NULL;
operand *right = NULL;
-
if (!tree)
return NULL;
-
/* set the global variables for filename & line number */
if (tree->filename)
filename = tree->filename;
/* if we find a nullop */
if (tree->type == EX_OP &&
- (tree->opval.op == NULLOP ||
- tree->opval.op == BLOCK))
+ (tree->opval.op == NULLOP ||
+ tree->opval.op == BLOCK))
{
- ast2iCode (tree->left);
- ast2iCode (tree->right);
+ ast2iCode (tree->left,lvl+1);
+ ast2iCode (tree->right,lvl+1);
return NULL;
}
tree->opval.op != INLINEASM)
{
- if (IS_ASSIGN_OP (tree->opval.op) ||
- IS_DEREF_OP (tree) ||
- (tree->opval.op == '&' && !tree->right) ||
- tree->opval.op == PTR_OP)
- {
- lvaluereq++;
- if ((IS_ARRAY_OP (tree->left) && IS_ARRAY_OP (tree->left->left)) ||
- (IS_DEREF_OP (tree) && IS_ARRAY_OP (tree->left)))
- {
- int olvr = lvaluereq;
- lvaluereq = 0;
- left = operandFromAst (tree->left);
- lvaluereq = olvr - 1;
- }
- else
- {
- left = operandFromAst (tree->left);
- lvaluereq--;
- }
- if (IS_DEREF_OP (tree) && IS_DEREF_OP (tree->left))
- left = geniCodeRValue (left, TRUE);
- }
- else
- {
- left = operandFromAst (tree->left);
- }
- if (tree->opval.op == INC_OP ||
- tree->opval.op == DEC_OP)
- {
- lvaluereq++;
- right = operandFromAst (tree->right);
- lvaluereq--;
- }
- else
- {
- right = operandFromAst (tree->right);
- }
- }
+ if (IS_ASSIGN_OP (tree->opval.op) ||
+ IS_DEREF_OP (tree) ||
+ (tree->opval.op == '&' && !tree->right) ||
+ tree->opval.op == PTR_OP)
+ {
+ addLvaluereq(lvl);
+ if ((IS_ARRAY_OP (tree->left) && IS_ARRAY_OP (tree->left->left)) ||
+ (IS_DEREF_OP (tree) && IS_ARRAY_OP (tree->left)))
+ clearLvaluereq();
+
+ left = operandFromAst (tree->left,lvl);
+ delLvaluereq();
+ if (IS_DEREF_OP (tree) && IS_DEREF_OP (tree->left))
+ left = geniCodeRValue (left, TRUE);
+ }
+ else
+ {
+ left = operandFromAst (tree->left,lvl);
+ }
+ if (tree->opval.op == INC_OP ||
+ tree->opval.op == DEC_OP)
+ {
+ addLvaluereq(lvl);
+ right = operandFromAst (tree->right,lvl);
+ delLvaluereq();
+ }
+ else
+ {
+ right = operandFromAst (tree->right,lvl);
+ }
+ }
/* now depending on the type of operand */
/* this will be a biggy */
right = geniCodeRValue (right, TRUE);
}
- return geniCodeArray (left, right);
+ return geniCodeArray (left, right,lvl);
case '.': /* structure dereference */
if (IS_PTR (operandType (left)))
case '*':
if (right)
return geniCodeMultiply (geniCodeRValue (left, FALSE),
- geniCodeRValue (right, FALSE), FALSE,IS_INT(tree->ftype));
+ geniCodeRValue (right, FALSE),IS_INT(tree->ftype));
else
- return geniCodeDerefPtr (geniCodeRValue (left, FALSE));
+ return geniCodeDerefPtr (geniCodeRValue (left, FALSE),lvl);
case '-':
if (right)
case '+':
if (right)
return geniCodeAdd (geniCodeRValue (left, FALSE),
- geniCodeRValue (right, FALSE));
+ geniCodeRValue (right, FALSE),lvl);
else
return geniCodeRValue (left, FALSE); /* unary '+' has no meaning */
geniCodeRValue (right, FALSE),
tree->opval.op);
case '?':
- return geniCodeConditional (tree);
+ return geniCodeConditional (tree,lvl);
case SIZEOF:
return operandFromLit (getSize (tree->right->ftype));
sym_link *rtype = operandType (right);
sym_link *ltype = operandType (left);
if (IS_PTR (rtype) && IS_ITEMP (right)
- && right->isaddr && checkType (rtype->next, ltype) == 1)
+ && right->isaddr && compareType (rtype->next, ltype) == 1)
right = geniCodeRValue (right, TRUE);
else
right = geniCodeRValue (right, FALSE);
geniCodeAssign (left,
geniCodeMultiply (geniCodeRValue (operandFromOperand (left),
FALSE),
- geniCodeRValue (right, FALSE), FALSE,FALSE), 0);
+ geniCodeRValue (right, FALSE),FALSE), 0);
case DIV_ASSIGN:
return
sym_link *rtype = operandType (right);
sym_link *ltype = operandType (left);
if (IS_PTR (rtype) && IS_ITEMP (right)
- && right->isaddr && checkType (rtype->next, ltype) == 1)
+ && right->isaddr && compareType (rtype->next, ltype) == 1)
right = geniCodeRValue (right, TRUE);
else
right = geniCodeRValue (right, FALSE);
return geniCodeAssign (left,
geniCodeAdd (geniCodeRValue (operandFromOperand (left),
FALSE),
- right), 0);
+ right,lvl), 0);
}
case SUB_ASSIGN:
{
sym_link *rtype = operandType (right);
sym_link *ltype = operandType (left);
if (IS_PTR (rtype) && IS_ITEMP (right)
- && right->isaddr && checkType (rtype->next, ltype) == 1)
+ && right->isaddr && compareType (rtype->next, ltype) == 1)
{
right = geniCodeRValue (right, TRUE);
}
return geniCodeRValue (right, FALSE);
case CALL:
- return geniCodeCall (ast2iCode (tree->left),
- tree->right);
+ return geniCodeCall (ast2iCode (tree->left,lvl+1),
+ tree->right,lvl);
case LABEL:
- geniCodeLabel (ast2iCode (tree->left)->operand.symOperand);
- return ast2iCode (tree->right);
+ geniCodeLabel (ast2iCode (tree->left,lvl+1)->operand.symOperand);
+ return ast2iCode (tree->right,lvl+1);
case GOTO:
- geniCodeGoto (ast2iCode (tree->left)->operand.symOperand);
- return ast2iCode (tree->right);
+ geniCodeGoto (ast2iCode (tree->left,lvl+1)->operand.symOperand);
+ return ast2iCode (tree->right,lvl+1);
case FUNCTION:
- geniCodeFunctionBody (tree);
+ geniCodeFunctionBody (tree,lvl);
return NULL;
case RETURN:
return NULL;
case IFX:
- geniCodeIfx (tree);
+ geniCodeIfx (tree,lvl);
return NULL;
case SWITCH:
- geniCodeSwitch (tree);
+ geniCodeSwitch (tree,lvl);
return NULL;
case INLINEASM:
{
returnLabel = newiTempLabel ("_return");
entryLabel = newiTempLabel ("_entry");
- ast2iCode (tree);
+ ast2iCode (tree,0);
return reverseiCChain ();
}