int noLineno = 0;
int noAlloc = 0;
symbol *currFunc;
-ast *createIval (ast *, sym_link *, initList *, ast *);
-ast *createIvalCharPtr (ast *, sym_link *, ast *);
+static ast *createIval (ast *, sym_link *, initList *, ast *);
+static ast *createIvalCharPtr (ast *, sym_link *, ast *);
+static ast *optimizeCompare (ast *);
ast *optimizeRRCRLC (ast *);
ast *optimizeGetHbit (ast *);
ast *backPatchLabels (ast *, symbol *, symbol *);
/*-----------------------------------------------------------------*/
-/* newAst - creates a fresh node for an expression tree */
+/* newAst - creates a fresh node for an expression tree */
/*-----------------------------------------------------------------*/
-#if 0
-ast *
-newAst (int type, void *op)
-{
- ast *ex;
- static int oldLineno = 0;
-
- ex = Safe_alloc ( sizeof (ast));
-
- ex->type = type;
- ex->lineno = (noLineno ? oldLineno : yylineno);
- ex->filename = currFname;
- ex->level = NestLevel;
- ex->block = currBlockno;
- ex->initMode = inInitMode;
-
- /* depending on the type */
- switch (type)
- {
- case EX_VALUE:
- ex->opval.val = (value *) op;
- break;
- case EX_OP:
- ex->opval.op = (long) op;
- break;
- case EX_LINK:
- ex->opval.lnk = (sym_link *) op;
- break;
- case EX_STMNT:
- ex->opval.stmnt = (unsigned) op;
- }
-
- return ex;
-}
-#endif
-
static ast *
newAst_ (unsigned type)
{
break;
case INLINEASM:
- dest->values.inlineasm = Safe_alloc (strlen (src->values.inlineasm) + 1);
- strcpy (dest->values.inlineasm, src->values.inlineasm);
+ dest->values.inlineasm = Safe_strdup(src->values.inlineasm);
break;
case ARRAYINIT:
/* copyAst - makes a copy of a given astession */
/*-----------------------------------------------------------------*/
ast *
-copyAst (ast * src)
+copyAst (ast * src)
{
ast *dest;
}
+/*-----------------------------------------------------------------*/
+/* removeIncDecOps: remove for side effects in *_ASSIGN's */
+/* "*s++ += 3" -> "*s++ = *s++ + 3" */
+/*-----------------------------------------------------------------*/
+ast *removeIncDecOps (ast * tree) {
+
+ // traverse the tree and remove inc/dec ops
+
+ if (!tree)
+ return NULL;
+
+ if (tree->type == EX_OP &&
+ (tree->opval.op == INC_OP || tree->opval.op == DEC_OP)) {
+ if (tree->left)
+ tree=tree->left;
+ else
+ tree=tree->right;
+ }
+
+ tree->left=removeIncDecOps(tree->left);
+ tree->right=removeIncDecOps(tree->right);
+
+ return tree;
+}
+
/*-----------------------------------------------------------------*/
/* hasSEFcalls - returns TRUE if tree has a function call */
/*-----------------------------------------------------------------*/
if (tree == NULL)
return tree;
+#if 0
/* print the line */
/* if not block & function */
if (tree->type == EX_OP &&
filename = tree->filename;
lineno = tree->lineno;
}
+#endif
/* make sure we resolve the true & false labels for ifx */
if (tree->type == EX_OP && tree->opval.op == IFX)
/*-----------------------------------------------------------------*/
/* setAstLineno - walks a ast tree & sets the line number */
/*-----------------------------------------------------------------*/
-int
-setAstLineno (ast * tree, int lineno)
+int setAstLineno (ast * tree, int lineno)
{
if (!tree)
return 0;
return 0;
}
-#if 0
-/* this functions seems to be superfluous?! kmh */
-
-/*-----------------------------------------------------------------*/
-/* resolveFromTable - will return the symbal table value */
-/*-----------------------------------------------------------------*/
-value *
-resolveFromTable (value * val)
-{
- symbol *csym;
-
- if (!val->sym)
- return val;
-
- csym = findSymWithLevel (SymbolTab, val->sym);
-
- /* if found in the symbol table & they r not the same */
- if (csym && val->sym != csym &&
- csym->level == val->sym->level &&
- csym->_isparm &&
- !csym->ismyparm)
- {
-
- val->sym = csym;
- val->type = csym->type;
- val->etype = csym->etype;
- }
-
- return val;
-}
-#endif
-
/*-----------------------------------------------------------------*/
/* funcOfType :- function of type with name */
/*-----------------------------------------------------------------*/
DCL_TYPE (sym->type) = FUNCTION;
sym->type->next = copyLinkChain (type);
sym->etype = getSpec (sym->type);
- FUNC_ISREENT(sym->type) = rent;
+ FUNC_ISREENT(sym->type) = rent ? 1 : 0;
/* if arguments required */
if (nArgs)
/*-----------------------------------------------------------------*/
/* reverseParms - will reverse a parameter tree */
/*-----------------------------------------------------------------*/
-void
+static void
reverseParms (ast * ptree)
{
ast *ttree;
if (IS_INTEGRAL (ftype)
&& (getSize (ftype) < (unsigned) INTSIZE))
{
- newType = newAst_LINK(INTTYPE);
+ if (IS_AST_OP(actParm) &&
+ (actParm->opval.op == LEFT_OP ||
+ actParm->opval.op == '*' ||
+ actParm->opval.op == '+' ||
+ actParm->opval.op == '-') &&
+ actParm->right) {
+ // we should cast an operand instead of the result
+ actParm->decorated = 0;
+ actParm->left = newNode( CAST, newAst_LINK(newIntLink()),
+ actParm->left);
+ actParm = decorateType(actParm);
+ } else {
+ newType = newAst_LINK(INTTYPE);
+ }
}
if (IS_PTR(ftype) && !IS_GENPTR(ftype))
{
newType = newAst_LINK (copyLinkChain(ftype));
- DCL_TYPE (newType->opval.lnk) = GPOINTER;
+ DCL_TYPE (newType->opval.lnk) = port->unqualified_pointer;
}
if (IS_AGGREGATE (ftype))
{
newType = newAst_LINK (copyLinkChain (ftype));
- DCL_TYPE (newType->opval.lnk) = GPOINTER;
+ DCL_TYPE (newType->opval.lnk) = port->unqualified_pointer;
}
if (newType)
{
/* make a copy and change the regparm type to the defined parm */
actParm->etype = getSpec (actParm->ftype = copyLinkChain (actParm->ftype));
SPEC_REGPARM (actParm->etype) = SPEC_REGPARM (defParm->etype);
+ SPEC_ARGREG (actParm->etype) = SPEC_ARGREG (defParm->etype);
(*parmNumber)++;
return 0;
}
/*-----------------------------------------------------------------*/
/* createIvalType - generates ival for basic types */
/*-----------------------------------------------------------------*/
-ast *
+static ast *
createIvalType (ast * sym, sym_link * type, initList * ilist)
{
ast *iExpr;
/*-----------------------------------------------------------------*/
/* createIvalStruct - generates initial value for structures */
/*-----------------------------------------------------------------*/
-ast *
+static ast *
createIvalStruct (ast * sym, sym_link * type, initList * ilist)
{
ast *rast = NULL;
/*-----------------------------------------------------------------*/
/* createIvalArray - generates code for array initialization */
/*-----------------------------------------------------------------*/
-ast *
+static ast *
createIvalArray (ast * sym, sym_link * type, initList * ilist)
{
ast *rast = NULL;
/*-----------------------------------------------------------------*/
/* createIvalCharPtr - generates initial values for char pointers */
/*-----------------------------------------------------------------*/
-ast *
+static ast *
createIvalCharPtr (ast * sym, sym_link * type, ast * iexpr)
{
ast *rast = NULL;
newNode ('[', sym,
newAst_VALUE (valueFromLit ((float) i))),
newAst_VALUE (valueFromLit (*s))));
+
+ // now WE don't need iexpr's symbol anymore
+ freeStringSymbol(AST_SYMBOL(iexpr));
+
return decorateType (resolveSymbols (rast));
}
/*-----------------------------------------------------------------*/
/* createIvalPtr - generates initial value for pointers */
/*-----------------------------------------------------------------*/
-ast *
+static ast *
createIvalPtr (ast * sym, sym_link * type, initList * ilist)
{
ast *rast;
/*-----------------------------------------------------------------*/
/* createIval - generates code for initial value */
/*-----------------------------------------------------------------*/
-ast *
+static ast *
createIval (ast * sym, sym_link * type, initList * ilist, ast * wid)
{
ast *rast = NULL;
/*-----------------------------------------------------------------*/
/* initAggregates - initialises aggregate variables with initv */
/*-----------------------------------------------------------------*/
-
-/* this has to go */ void printIval (symbol *, sym_link *, initList *, FILE *);
-
ast * initAggregates (symbol * sym, initList * ival, ast * wid) {
- ast *ast;
- symbol *newSym;
-
- if (getenv("TRY_THE_NEW_INITIALIZER")) {
-
- if (!TARGET_IS_MCS51 || !(options.model==MODEL_LARGE)) {
- fprintf (stderr, "Can't \"TRY_THE_NEW_INITIALIZER\" unless "
- "with -mmcs51 and --model-large\n");
- exit(404);
- }
-
- if (SPEC_OCLS(sym->etype)==xdata &&
- getSize(sym->type) > 16) { // else it isn't worth it: do it the old way
-
- // copy this symbol
- newSym=copySymbol (sym);
- SPEC_OCLS(newSym->etype)=code;
- sprintf (newSym->name, "%s_init__", sym->name);
- sprintf (newSym->rname,"%s_init__", sym->rname);
- addSym (SymbolTab, newSym, newSym->name, 0, 0, 1);
-
- // emit it in the static segment
- addSet(&statsg->syms, newSym);
-
- // now memcpy() the entire array from cseg
- ast=newNode (ARRAYINIT, // ASSIGN_AGGREGATE
- newAst_VALUE (symbolVal (sym)),
- newAst_VALUE (symbolVal (newSym)));
- return decorateType(resolveSymbols(ast));
- }
- }
-
return createIval (newAst_VALUE (symbolVal (sym)), sym->type, ival, wid);
}
/* gatherAutoInit - creates assignment expressions for initial */
/* values */
/*-----------------------------------------------------------------*/
-ast *
+static ast *
gatherAutoInit (symbol * autoChain)
{
ast *init = NULL;
/* if there is an initial value */
if (sym->ival && SPEC_SCLS (sym->etype) != S_CODE)
{
+ initList *ilist=sym->ival;
+
+ while (ilist->type == INIT_DEEP) {
+ ilist = ilist->init.deep;
+ }
+
+ /* update lineno for error msg */
+ lineno=sym->lineDef;
+ setAstLineno (ilist->init.node, lineno);
+
if (IS_AGGREGATE (sym->type)) {
work = initAggregates (sym, sym->ival, NULL);
} else {
work = newNode ('=', newAst_VALUE (symbolVal (sym)),
list2expr (sym->ival));
}
-
+
+ // just to be sure
setAstLineno (work, sym->lineDef);
+
sym->ival = NULL;
if (init)
init = newNode (NULLOP, init, work);
return init;
}
+/*-----------------------------------------------------------------*/
+/* freeStringSymbol - delete a literal string if no more usage */
+/*-----------------------------------------------------------------*/
+void freeStringSymbol(symbol *sym) {
+ /* make sure this is a literal string */
+ assert (sym->isstrlit);
+ if (--sym->isstrlit == 0) { // lower the usage count
+ memmap *segment=SPEC_OCLS(sym->etype);
+ if (segment) {
+ deleteSetItem(&segment->syms, sym);
+ }
+ }
+}
+
/*-----------------------------------------------------------------*/
/* stringToSymbol - creates a symbol from a literal string */
/*-----------------------------------------------------------------*/
char name[SDCC_NAME_MAX + 1];
static int charLbl = 0;
symbol *sym;
+ set *sp;
+
+ // have we heard this before?
+ for (sp=statsg->syms; sp; sp=sp->next) {
+ sym=sp->item;
+ if (sym->isstrlit &&
+ !strcmp(SPEC_CVAL(sym->etype).v_char, SPEC_CVAL(val->etype).v_char)) {
+ // yes, this is old news. Don't publish it again.
+ sym->isstrlit++; // but raise the usage count
+ return symbolVal(sym);
+ }
+ }
- sprintf (name, "_str_%d", charLbl++);
+ SNPRINTF (name, sizeof(name), "_str_%d", charLbl++);
sym = newSymbol (name, 0); /* make it @ level 0 */
- strcpy (sym->rname, name);
+ strncpyz (sym->rname, name, SDCC_NAME_MAX);
/* copy the type from the value passed */
sym->type = copyLinkChain (val->type);
return tree;
}
+/*-------------------------------------------------------------*/
+/* constExprTree - returns TRUE if this tree is a constant */
+/* expression */
+/*-------------------------------------------------------------*/
+bool constExprTree (ast *cexpr) {
+
+ if (!cexpr) {
+ return TRUE;
+ }
+
+ cexpr = decorateType (resolveSymbols (cexpr));
+
+ switch (cexpr->type)
+ {
+ case EX_VALUE:
+ if (IS_AST_LIT_VALUE(cexpr)) {
+ // this is a literal
+ return TRUE;
+ }
+ if (IS_AST_SYM_VALUE(cexpr) && IS_FUNC(AST_SYMBOL(cexpr)->type)) {
+ // a function's address will never change
+ return TRUE;
+ }
+ if (IS_AST_SYM_VALUE(cexpr) && IS_ARRAY(AST_SYMBOL(cexpr)->type)) {
+ // an array's address will never change
+ return TRUE;
+ }
+ if (IS_AST_SYM_VALUE(cexpr) &&
+ IN_CODESPACE(SPEC_OCLS(AST_SYMBOL(cexpr)->etype))) {
+ // a symbol in code space will never change
+ // This is only for the 'char *s="hallo"' case and will have to leave
+ return TRUE;
+ }
+ return FALSE;
+ case EX_LINK:
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "unexpected link in expression tree\n");
+ return FALSE;
+ case EX_OP:
+ if (cexpr->opval.op==ARRAYINIT) {
+ // this is a list of literals
+ return TRUE;
+ }
+ if (cexpr->opval.op=='=') {
+ return constExprTree(cexpr->right);
+ }
+ if (cexpr->opval.op==CAST) {
+ // jwk: cast ignored, maybe we should throw a warning here
+ return constExprTree(cexpr->right);
+ }
+ if (cexpr->opval.op=='&') {
+ return TRUE;
+ }
+ if (cexpr->opval.op==CALL || cexpr->opval.op==PCALL) {
+ return FALSE;
+ }
+ if (constExprTree(cexpr->left) && constExprTree(cexpr->right)) {
+ return TRUE;
+ }
+ }
+ return FALSE;
+}
+
/*-----------------------------------------------------------------*/
/* constExprValue - returns the value of a constant expression */
/* or NULL if it is not a constant expression */
val->sym = cexpr->opval.val->sym;
val->sym->type = copyLinkChain (cexpr->ftype);
val->sym->etype = getSpec (val->sym->type);
- strcpy (val->name, cexpr->opval.val->sym->rname);
+ strncpyz (val->name, cexpr->opval.val->sym->rname, SDCC_NAME_MAX);
return val;
}
/* if we are casting a literal value then */
if (IS_AST_OP (cexpr) &&
cexpr->opval.op == CAST &&
- IS_LITERAL (cexpr->left->ftype))
+ IS_LITERAL (cexpr->right->ftype))
return valCastLiteral (cexpr->ftype,
- floatFromVal (cexpr->left->opval.val));
+ floatFromVal (cexpr->right->opval.val));
if (IS_AST_VALUE (cexpr))
return cexpr->opval.val;
/* if we reach the end or a leaf then true */
if (!pbody || IS_AST_LINK (pbody) || IS_AST_VALUE (pbody))
return TRUE;
-
-
+
/* if anything else is "volatile" */
if (IS_VOLATILE (TETYPE (pbody)))
return FALSE;
{
/*------------------------------------------------------------------*/
case '[':
+ // if the loopvar is used as an index
+ if (astHasSymbol(pbody->right, sym)) {
+ return FALSE;
+ }
return isConformingBody (pbody->right, sym, body);
/*------------------------------------------------------------------*/
if (astHasVolatile (pbody->left))
return FALSE;
- if (IS_AST_SYM_VALUE (pbody->left) &&
- isSymbolEqual (AST_SYMBOL (pbody->left), sym))
- return FALSE;
+ if (IS_AST_SYM_VALUE (pbody->left)) {
+ // if the loopvar has an assignment
+ if (isSymbolEqual (AST_SYMBOL (pbody->left), sym))
+ return FALSE;
+ // if the loopvar is used in another (maybe conditional) block
+ if (astHasSymbol (pbody->right, sym) &&
+ (pbody->level > body->level)) {
+ return FALSE;
+ }
+ }
if (astHasVolatile (pbody->left))
return FALSE;
/* function call */
/*----------------------------*/
case CALL:
+ /* if local & not passed as paramater then ok */
+ if (sym->level && !astHasSymbol(pbody->right,sym))
+ return TRUE;
return FALSE;
/*------------------------------------------------------------------*/
rloop = newNode (NULLOP,
createIf (newAst_VALUE (symbolVal (sym)),
newNode (GOTO,
- newAst_VALUE (symbolVal (AST_FOR (loop, continueLabel))),
+ newAst_VALUE (symbolVal (AST_FOR (loop, continueLabel))),
NULL), NULL),
newNode ('=',
newAst_VALUE (symbolVal (sym)),
end));
-
+
replLoopSym (loop->left, sym);
-
+ setAstLineno (rloop, init->lineno);
+
rloop = newNode (NULLOP,
newNode ('=',
newAst_VALUE (symbolVal (sym)),
loop->left,
newNode (NULLOP,
newNode (SUB_ASSIGN,
- newAst_VALUE (symbolVal (sym)),
- newAst_VALUE (constVal ("1"))),
+ newAst_VALUE (symbolVal (sym)),
+ newAst_VALUE (constVal ("1"))),
rloop))));
-
+
+ rloop->lineno=init->lineno;
return decorateType (rloop);
-
+
}
/*-----------------------------------------------------------------*/
tree->decorated = 1;
+#if 0
/* print the line */
/* if not block & function */
if (tree->type == EX_OP &&
filename = tree->filename;
lineno = tree->lineno;
}
+#endif
/* if any child is an error | this one is an error do nothing */
if (tree->isError ||
/*----------------------------*/
/* leaf has been reached */
/*----------------------------*/
+ lineno=tree->lineno;
/* if this is of type value */
/* just get the type */
if (tree->type == EX_VALUE)
tree->left = dtl;
if (dtr != tree->right)
tree->right = dtr;
+
+ if (IS_AST_OP(tree) &&
+ (tree->opval.op == CAST || tree->opval.op == '=') &&
+ (getSize(LTYPE(tree)) > getSize(RTYPE(tree))) &&
+ (getSize(RTYPE(tree)) < INTSIZE)) {
+ // this is a cast/assign to a bigger type
+ if (IS_AST_OP(tree->right) &&
+ IS_INTEGRAL(tree->right->ftype) &&
+ (tree->right->opval.op == LEFT_OP ||
+ tree->right->opval.op == '*' ||
+ tree->right->opval.op == '+' ||
+ tree->right->opval.op == '-') &&
+ tree->right->right) {
+ // we should cast an operand instead of the result
+ tree->right->decorated = 0;
+ tree->right->left = newNode( CAST, newAst_LINK(newIntLink()),
+ tree->right->left);
+ tree->right = decorateType(tree->right);
+ }
+ }
}
/* depending on type of operator do */
switch (tree->opval.op)
{
- /*------------------------------------------------------------------*/
- /*----------------------------*/
- /* array node */
- /*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
+ /* array node */
+ /*----------------------------*/
case '[':
/* determine which is the array & which the index */
/*----------------------------*/
case PTR_OP:
/* if not pointer to a structure */
- if (!IS_PTR (LTYPE (tree)))
+ if (!IS_PTR (LTYPE (tree)) && !IS_ARRAY (LTYPE(tree)))
{
werror (E_PTR_REQD);
goto errorTreeReturn;
(tree->right->type == EX_VALUE ?
tree->right->opval.val : NULL));
TETYPE (tree) = getSpec (TTYPE (tree));
+
+ /* adjust the storage class */
+ switch (DCL_TYPE(tree->left->ftype)) {
+ case POINTER:
+ break;
+ case FPOINTER:
+ SPEC_SCLS(TETYPE(tree)) = S_XDATA;
+ break;
+ case CPOINTER:
+ SPEC_SCLS(TETYPE(tree)) = S_CODE;
+ break;
+ case GPOINTER:
+ break;
+ case PPOINTER:
+ SPEC_SCLS(TETYPE(tree)) = S_XSTACK;
+ break;
+ case IPOINTER:
+ SPEC_SCLS(TETYPE(tree)) = S_IDATA;
+ break;
+ case EEPPOINTER:
+ SPEC_SCLS(TETYPE(tree)) = S_EEPROM;
+ break;
+ case UPOINTER:
+ case ARRAY:
+ case FUNCTION:
+ break;
+ }
+
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* ++/-- operation */
-/*----------------------------*/
+ /*----------------------------*/
case INC_OP: /* incerement operator unary so left only */
case DEC_OP:
{
return tree;
}
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* bitwise and */
-/*----------------------------*/
+ /*----------------------------*/
case '&': /* can be unary */
/* if right is NULL then unary operation */
if (tree->right) /* not an unary operation */
return tree;
}
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* address of */
-/*----------------------------*/
+ /*----------------------------*/
p = newLink ();
p->class = DECLARATOR;
/* if bit field then error */
if (IS_FUNC (LTYPE (tree)))
{
- werror (E_ILLEGAL_ADDR, "address of function");
- goto errorTreeReturn;
+ // this ought to be ignored
+ return (tree->left);
}
if (IS_LITERAL(LTYPE(tree)))
TLVAL (tree) = 1;
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* bitwise or */
-/*----------------------------*/
+ /*----------------------------*/
case '|':
/* if the rewrite succeeds then don't go any furthur */
{
ast *wtree = optimizeRRCRLC (tree);
if (wtree != tree)
return decorateType (wtree);
+ // fall through
}
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* bitwise xor */
-/*----------------------------*/
+ /*----------------------------*/
case '^':
if (!IS_INTEGRAL (LTYPE (tree)) || !IS_INTEGRAL (RTYPE (tree)))
{
computeType (LTYPE (tree),
RTYPE (tree)));
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* division */
-/*----------------------------*/
+ /*----------------------------*/
case '/':
if (!IS_ARITHMETIC (LTYPE (tree)) || !IS_ARITHMETIC (RTYPE (tree)))
{
RTYPE (tree)));
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* modulus */
-/*----------------------------*/
+ /*----------------------------*/
case '%':
if (!IS_INTEGRAL (LTYPE (tree)) || !IS_INTEGRAL (RTYPE (tree)))
{
RTYPE (tree)));
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
-/* address dereference */
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
+ /* address dereference */
+ /*----------------------------*/
case '*': /* can be unary : if right is null then unary operation */
if (!tree->right)
{
return tree;
}
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* multiplication */
-/*----------------------------*/
+ /*----------------------------*/
if (!IS_ARITHMETIC (LTYPE (tree)) || !IS_ARITHMETIC (RTYPE (tree)))
{
werror (E_INVALID_OP, "multiplication");
}
LRVAL (tree) = RRVAL (tree) = 1;
+ TETYPE (tree) = getSpec (TTYPE (tree) =
+ computeType (LTYPE (tree),
+ RTYPE (tree)));
+
/* promote result to int if left & right are char
this will facilitate hardware multiplies 8bit x 8bit = 16bit */
if (IS_CHAR(LETYPE(tree)) && IS_CHAR(RETYPE(tree))) {
- TETYPE (tree) = getSpec (TTYPE (tree) =
- computeType (LTYPE (tree),
- RTYPE (tree)));
SPEC_NOUN(TETYPE(tree)) = V_INT;
- } else {
- TETYPE (tree) = getSpec (TTYPE (tree) =
- computeType (LTYPE (tree),
- RTYPE (tree)));
}
+
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* unary '+' operator */
-/*----------------------------*/
+ /*----------------------------*/
case '+':
/* if unary plus */
if (!tree->right)
return tree;
}
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* addition */
-/*----------------------------*/
+ /*----------------------------*/
/* this is not a unary operation */
/* if both pointers then problem */
LRVAL (tree) = RRVAL (tree) = 1;
/* if the left is a pointer */
- if (IS_PTR (LTYPE (tree)))
+ if (IS_PTR (LTYPE (tree)) || IS_AGGREGATE (LTYPE (tree)) )
TETYPE (tree) = getSpec (TTYPE (tree) =
LTYPE (tree));
else
RTYPE (tree)));
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* unary '-' */
-/*----------------------------*/
+ /*----------------------------*/
case '-': /* can be unary */
/* if right is null then unary */
if (!tree->right)
return tree;
}
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* subtraction */
-/*----------------------------*/
+ /*----------------------------*/
if (!(IS_PTR (LTYPE (tree)) ||
IS_ARRAY (LTYPE (tree)) ||
LRVAL (tree) = RRVAL (tree) = 1;
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* compliment */
-/*----------------------------*/
+ /*----------------------------*/
case '~':
/* can be only integral type */
if (!IS_INTEGRAL (LTYPE (tree)))
COPYTYPE (TTYPE (tree), TETYPE (tree), LTYPE (tree));
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* not */
-/*----------------------------*/
+ /*----------------------------*/
case '!':
/* can be pointer */
if (!IS_ARITHMETIC (LTYPE (tree)) &&
TTYPE (tree) = TETYPE (tree) = newCharLink ();
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* shift */
-/*----------------------------*/
+ /*----------------------------*/
case RRC:
case RLC:
TTYPE (tree) = LTYPE (tree);
tree->opval.val->type);
return tree;
}
+
/* if only the right side is a literal & we are
shifting more than size of the left operand then zero */
if (IS_LITERAL (RTYPE (tree)) &&
((unsigned) floatFromVal (valFromType (RETYPE (tree)))) >=
(getSize (LTYPE (tree)) * 8))
{
- werror (W_SHIFT_CHANGED,
- (tree->opval.op == LEFT_OP ? "left" : "right"));
- tree->type = EX_VALUE;
- tree->left = tree->right = NULL;
- tree->opval.val = constVal ("0");
- TETYPE (tree) = TTYPE (tree) = tree->opval.val->type;
- return tree;
+ if (tree->opval.op==LEFT_OP ||
+ (tree->opval.op==RIGHT_OP && SPEC_USIGN(LETYPE(tree)))) {
+ lineno=tree->lineno;
+ werror (W_SHIFT_CHANGED,
+ (tree->opval.op == LEFT_OP ? "left" : "right"));
+ tree->type = EX_VALUE;
+ tree->left = tree->right = NULL;
+ tree->opval.val = constVal ("0");
+ TETYPE (tree) = TTYPE (tree) = tree->opval.val->type;
+ return tree;
+ }
}
LRVAL (tree) = RRVAL (tree) = 1;
if (IS_LITERAL (LTYPE (tree)) && !IS_LITERAL (RTYPE (tree)))
LRVAL (tree) = 1;
}
#else
+#if 0 // this is already checked, now this could be explicit
/* if pointer to struct then check names */
if (IS_PTR(LTYPE(tree)) && IS_STRUCT(LTYPE(tree)->next) &&
IS_PTR(RTYPE(tree)) && IS_STRUCT(RTYPE(tree)->next) &&
- strcmp(SPEC_STRUCT(LETYPE(tree))->tag,SPEC_STRUCT(RETYPE(tree))->tag)) {
- werror(W_CAST_STRUCT_PTR,SPEC_STRUCT(RETYPE(tree))->tag,SPEC_STRUCT(LETYPE(tree))->tag);
- }
+ strcmp(SPEC_STRUCT(LETYPE(tree))->tag,SPEC_STRUCT(RETYPE(tree))->tag))
+ {
+ werror(W_CAST_STRUCT_PTR,SPEC_STRUCT(RETYPE(tree))->tag,
+ SPEC_STRUCT(LETYPE(tree))->tag);
+ }
+#endif
/* if the right is a literal replace the tree */
if (IS_LITERAL (RETYPE (tree)) && !IS_PTR (LTYPE (tree))) {
tree->type = EX_VALUE;
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* logical &&, || */
-/*----------------------------*/
+ /*----------------------------*/
case AND_OP:
case OR_OP:
/* each must me arithmetic type or be a pointer */
TTYPE (tree) = TETYPE (tree) = newCharLink ();
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* comparison operators */
-/*----------------------------*/
+ /*----------------------------*/
case '>':
case '<':
case LE_OP:
/* if they are pointers they must be castable */
if (IS_PTR (LTYPE (tree)) && IS_PTR (RTYPE (tree)))
{
+ if (tree->opval.op==EQ_OP &&
+ !IS_GENPTR(LTYPE(tree)) && IS_GENPTR(RTYPE(tree))) {
+ // we cannot cast a gptr to a !gptr: switch the leaves
+ struct ast *s=tree->left;
+ tree->left=tree->right;
+ tree->right=s;
+ }
if (compareType (LTYPE (tree), RTYPE (tree)) == 0)
{
werror (E_COMPARE_OP);
- fprintf (stderr, "comparing type ");
+ fprintf (stderr, "comparring type ");
printTypeChain (LTYPE (tree), stderr);
fprintf (stderr, "to type ");
printTypeChain (RTYPE (tree), stderr);
goto errorTreeReturn;
}
}
+ /* if unsigned value < 0 then always false */
+ /* if (unsigned value) > 0 then (unsigned value) */
+ if (SPEC_USIGN(LETYPE(tree)) && IS_LITERAL(RTYPE(tree)) &&
+ ((int) floatFromVal (valFromType (RETYPE (tree)))) == 0) {
+ if (tree->opval.op == '<') {
+ return tree->right;
+ }
+ if (tree->opval.op == '>') {
+ return tree->left;
+ }
+ }
/* if they are both literal then */
/* rewrite the tree */
if (IS_LITERAL (RTYPE (tree)) &&
TTYPE (tree) = TETYPE (tree) = newCharLink ();
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* sizeof */
-/*----------------------------*/
+ /*----------------------------*/
case SIZEOF: /* evaluate wihout code generation */
/* change the type to a integer */
tree->type = EX_VALUE;
- sprintf (buffer, "%d", (getSize (tree->right->ftype)));
+ SNPRINTF(buffer, sizeof(buffer), "%d", (getSize (tree->right->ftype)));
tree->opval.val = constVal (buffer);
tree->right = tree->left = NULL;
TETYPE (tree) = getSpec (TTYPE (tree) =
break;
}
}
- sprintf (buffer, "%d", typeofv);
+ SNPRINTF (buffer, sizeof(buffer), "%d", typeofv);
tree->opval.val = constVal (buffer);
tree->right = tree->left = NULL;
TETYPE (tree) = getSpec (TTYPE (tree) =
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+#if 0 // assignment operators are converted by the parser
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* assignment operators */
-/*----------------------------*/
+ /*----------------------------*/
case MUL_ASSIGN:
case DIV_ASSIGN:
/* for these it must be both must be integral */
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* -= operator */
-/*----------------------------*/
+ /*----------------------------*/
case SUB_ASSIGN:
if (!(IS_PTR (LTYPE (tree)) ||
IS_ARITHMETIC (LTYPE (tree))))
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* += operator */
-/*----------------------------*/
+ /*----------------------------*/
case ADD_ASSIGN:
/* this is not a unary operation */
/* if both pointers then problem */
tree->opval.op = '=';
return tree;
+#endif
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* straight assignemnt */
-/*----------------------------*/
+ /*----------------------------*/
case '=':
/* cannot be an aggregate */
if (IS_AGGREGATE (LTYPE (tree)))
if (compareType (LTYPE (tree), RTYPE (tree)) == 0)
{
werror (E_TYPE_MISMATCH, "assignment", " ");
- fprintf (stderr, "type --> '");
- printTypeChain (RTYPE (tree), stderr);
- fprintf (stderr, "' ");
- fprintf (stderr, "assigned to type --> '");
- printTypeChain (LTYPE (tree), stderr);
- fprintf (stderr, "'\n");
- goto errorTreeReturn;
+ printFromToType(RTYPE(tree),LTYPE(tree));
+ //goto errorTreeReturn;
}
/* if the left side of the tree is of type void
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* comma operator */
-/*----------------------------*/
+ /*----------------------------*/
case ',':
TETYPE (tree) = getSpec (TTYPE (tree) = RTYPE (tree));
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* function call */
-/*----------------------------*/
+ /*----------------------------*/
case CALL:
parmNumber = 1;
TETYPE (tree) = getSpec (TTYPE (tree) = LTYPE (tree)->next);
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* return statement */
-/*----------------------------*/
+ /*----------------------------*/
case RETURN:
if (!tree->right)
goto voidcheck;
TTYPE (tree) = TETYPE (tree) = NULL;
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* switch statement */
-/*----------------------------*/
+ /*----------------------------*/
case SWITCH:
/* the switch value must be an integer */
if (!IS_INTEGRAL (LTYPE (tree)))
TTYPE (tree) = TETYPE (tree) = NULL;
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* ifx Statement */
-/*----------------------------*/
+ /*----------------------------*/
case IFX:
tree->left = backPatchLabels (tree->left,
tree->trueLabel,
TTYPE (tree) = TETYPE (tree) = NULL;
return tree;
-/*------------------------------------------------------------------*/
-/*----------------------------*/
+ /*------------------------------------------------------------------*/
+ /*----------------------------*/
/* for Statement */
-/*----------------------------*/
+ /*----------------------------*/
case FOR:
decorateType (resolveSymbols (AST_FOR (tree, initExpr)));
checkTypeSanity(type, "(sizeof)");
/* get the size and convert it to character */
- sprintf (buff, "%d", getSize (type));
+ SNPRINTF (buff, sizeof(buff), "%d", getSize (type));
/* now convert into value */
return constVal (buff);
static int localLbl = 0;
symbol *localLabel;
- sprintf (buffer, "_and_%d", localLbl++);
+ SNPRINTF(buffer, sizeof(buffer), "_and_%d", localLbl++);
localLabel = newSymbol (buffer, NestLevel);
tree->left = backPatchLabels (tree->left, localLabel, falseLabel);
static int localLbl = 0;
symbol *localLabel;
- sprintf (buffer, "_or_%d", localLbl++);
+ SNPRINTF(buffer, sizeof(buffer), "_or_%d", localLbl++);
localLabel = newSymbol (buffer, NestLevel);
tree->left = backPatchLabels (tree->left, trueLabel, localLabel);
label = newSymbol (label->name, label->level);
/* change the name before putting it in add _ */
- sprintf (name, "%s", label->name);
+ SNPRINTF(name, sizeof(name), "%s", label->name);
/* put the label in the LabelSymbol table */
/* but first check if a label of the same */
}
/* create the case label */
- sprintf (caseLbl, "_case_%d_%d",
+ SNPRINTF(caseLbl, sizeof(caseLbl),
+ "_case_%d_%d",
swStat->values.switchVals.swNum,
(int) floatFromVal (caseVal->opval.val));
swStat->values.switchVals.swDefault = 1;
/* create the label */
- sprintf (defLbl, "_default_%d", swStat->values.switchVals.swNum);
+ SNPRINTF (defLbl, sizeof(defLbl),
+ "_default_%d", swStat->values.switchVals.swNum);
return createLabel (newSymbol (defLbl, 0), stmnt);
}
}
/* create the labels */
- sprintf (buffer, "_iffalse_%d", Lblnum);
+ SNPRINTF (buffer, sizeof(buffer), "_iffalse_%d", Lblnum);
ifFalse = newSymbol (buffer, NestLevel);
/* if no else body then end == false */
if (!elseBody)
ifEnd = ifFalse;
else
{
- sprintf (buffer, "_ifend_%d", Lblnum);
+ SNPRINTF(buffer, sizeof(buffer), "_ifend_%d", Lblnum);
ifEnd = newSymbol (buffer, NestLevel);
}
- sprintf (buffer, "_iftrue_%d", Lblnum);
+ SNPRINTF (buffer, sizeof(buffer), "_iftrue_%d", Lblnum);
ifTrue = newSymbol (buffer, NestLevel);
Lblnum++;
/*-----------------------------------------------------------------*/
/* optimizeCompare - otimizes compares for bit variables */
/*-----------------------------------------------------------------*/
-ast *
+static ast *
optimizeCompare (ast * root)
{
ast *optExpr = NULL;
vright = (root->right->type == EX_VALUE ?
root->right->opval.val : NULL);
- //#define EXPERIMENTAL
-#ifdef EXPERIMENTAL
- /* if left is unsigned and right is literal */
- if (vleft && vright &&
- IS_UNSIGNED(vleft->etype) &&
- IS_LITERAL(vright->etype)) {
- double dval=floatFromVal(vright);
- int op=root->opval.op;
-
- fprintf (stderr,"op: '");
- switch (op) {
- case LE_OP: fprintf (stderr, "<= '"); break;
- case EQ_OP: fprintf (stderr, "== '"); break;
- case GE_OP: fprintf (stderr, ">= '"); break;
- default: fprintf (stderr, "%c '", op); break;
- }
- fprintf (stderr, "%f\n", dval);
-
- switch (op)
- {
- case EQ_OP:
- case LE_OP:
- case '<':
- if (dval<0 || (op=='<' && dval==0)) {
- // unsigned is never < 0
- werror (W_IF_NEVER_TRUE);
- optExpr = newAst_VALUE (constVal("0"));
- return decorateType (optExpr);
- }
- if (dval==0) {
- if (op==LE_OP) {
- // change this into a cheaper EQ_OP
- fprintf (stderr, "warning *** changed '<=' to '==' because of unsigned\n");
- root->opval.op=EQ_OP;
- return root;
- }
- }
- break;
- case GE_OP:
- case '>':
- if (dval>0 || (op==GE_OP && dval==0)) {
- // unsigned is never < 0
- werror (W_IF_ALWAYS_TRUE);
- optExpr = newAst_VALUE (constVal("1"));
- return decorateType (optExpr);
- }
- if (dval==0) {
- if (op=='>') {
- // change this into a cheaper reversed EQ_OP
- fprintf (stderr, "warning *** changed '>' to '!=' because of unsigned\n");
- root->opval.op=EQ_OP;
- }
- }
- }
- }
-#endif
-
/* if left is a BITVAR in BITSPACE */
/* and right is a LITERAL then opt- */
/* imize else do nothing */
name->stack = SPEC_STAK (fetype) = stack;
/* name needs to be mangled */
- sprintf (name->rname, "%s%s", port->fun_prefix, name->name);
+ SNPRINTF (name->rname, sizeof(name->rname), "%s%s", port->fun_prefix, name->name);
body = resolveSymbols (body); /* resolve the symbols */
body = decorateType (body); /* propagateType & do semantic checks */
/* we are done freeup memory & cleanup */
noLineno--;
- labelKey = 1;
+ if (port->reset_labelKey) labelKey = 1;
name->key = 0;
FUNC_HASBODY(name->type) = 1;
addSet (&operKeyReset, name);
/*----------------------------*/
case RETURN:
fprintf(outfile,"RETURN (%p) type (",tree);
- printTypeChain(tree->right->ftype,outfile);
+ if (tree->right) {
+ printTypeChain(tree->right->ftype,outfile);
+ }
fprintf(outfile,")\n");
ast_print(tree->right,outfile,indent+2);
return ;