/* 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 */
/*-----------------------------------------------------------------*/
/*-----------------------------------------------------------------*/
/* 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;
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)
/* 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;
}
newNode ('[', sym,
newAst_VALUE (valueFromLit ((float) i))),
newAst_VALUE (valueFromLit (*s))));
+
+ // now we don't need iexpr's symbol anymore
+ {
+ symbol *sym=AST_SYMBOL(iexpr);
+ memmap *segment=SPEC_OCLS(sym->etype);
+ deleteSetItem(&segment->syms, sym);
+ }
return decorateType (resolveSymbols (rast));
}
// a function'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__,
/* 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);
-
+
}
/*-----------------------------------------------------------------*/
return tree;
+#if 0 // assignment operators are converted by the parser
/*------------------------------------------------------------------*/
/*----------------------------*/
/* assignment operators */
tree->opval.op = '=';
return tree;
+#endif
/*------------------------------------------------------------------*/
/*----------------------------*/
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
/*----------------------------*/
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 ;