int currLineno = 0;
set *astList = NULL ;
set *operKeyReset = NULL;
-extern char *currFname ;
ast *staticAutos = NULL;
int labelKey = 1 ;
int noLineno = 0;
int noAlloc = 0 ;
symbol *currFunc ;
-extern int fatalError ;
-extern int lineno;
-extern char *filename ;
-extern set *publics;
-extern ast *createIval (ast *, link *, initList *, ast *);
-extern ast *createIvalCharPtr (ast *, link *, ast *);
+ast *createIval (ast *, link *, initList *, ast *);
+ast *createIvalCharPtr (ast *, link *, ast *);
ast *optimizeRRCRLC ( ast * );
ast *optimizeGetHbit(ast *);
ast *backPatchLabels (ast *,symbol *,symbol *);
/*-----------------------------------------------------------------*/
/* newAst - creates a fresh node for an expression tree */
/*-----------------------------------------------------------------*/
+#if 0
ast *newAst (int type, void *op )
{
ast *ex ;
ex->opval.val = (value *) op;
break ;
case EX_OP :
- ex->opval.op = (int) op ;
+ ex->opval.op = (long) op ;
break ;
case EX_LINK :
ex->opval.lnk = (link *) op;
return ex;
}
+#endif
+
+static ast* newAst_(unsigned type)
+{
+ ast *ex ;
+ static int oldLineno = 0 ;
+
+ ALLOC(ex,sizeof(ast));
+
+ ex->type = type ;
+ ex->lineno = (noLineno ? oldLineno : yylineno);
+ ex->filename = currFname ;
+ ex->level = NestLevel ;
+ ex->block = currBlockno ;
+ ex->initMode = inInitMode;
+ return ex;
+}
+
+ast* newAst_VALUE(value*val)
+{
+ ast* ex = newAst_(EX_VALUE);
+ ex->opval.val = val;
+ return ex;
+}
+
+ast* newAst_OP(unsigned op)
+{
+ ast*ex = newAst_(EX_OP);
+ ex->opval.op = op;
+ return ex;
+}
+
+ast* newAst_LINK(link*val)
+{
+ ast* ex = newAst_(EX_LINK);
+ ex->opval.lnk = val;
+ return ex;
+}
+
+ast* newAst_STMNT(unsigned val)
+{
+ ast* ex = newAst_(EX_STMNT);
+ ex->opval.stmnt = val;
+ return ex;
+}
/*-----------------------------------------------------------------*/
/* newNode - creates a new node */
/*-----------------------------------------------------------------*/
-ast *newNode ( int op, ast *left, ast *right )
+ast *newNode ( long op, ast *left, ast *right )
{
ast *ex ;
- ex = newAst (EX_OP,(void *) op) ;
+ ex = newAst_OP(op) ;
ex->left = left ;
ex->right = right;
/* then depending on the expression value */
if ( floatFromVal(condAst->opval.val) )
- ifxNode = newNode(GOTO, newAst(EX_VALUE,
- symbolVal (trueLabel )),NULL);
+ ifxNode = newNode(GOTO,
+ newAst_VALUE(symbolVal(trueLabel)),
+ NULL);
else
- ifxNode = newNode(GOTO, newAst(EX_VALUE,
- symbolVal (falseLabel )),NULL);
+ ifxNode = newNode(GOTO,
+ newAst_VALUE(symbolVal(falseLabel)),
+ NULL);
}
else {
ifxNode = newNode(IFX,condAst,NULL);
return 0;
}
+#if 0
+/* this functions seems to be superfluous?! kmh */
+
/*-----------------------------------------------------------------*/
/* resolveFromTable - will return the symbal table value */
/*-----------------------------------------------------------------*/
return val;
}
+#endif
/*-----------------------------------------------------------------*/
/* funcOfType :- function of type with name */
/* now change the current one to a cast */
actParm->type = EX_OP ;
actParm->opval.op = CAST ;
- actParm->left = newAst(EX_LINK,defParm->type);
+ actParm->left = newAst_LINK(defParm->type);
actParm->right= pTree ;
actParm->etype= defParm->etype;
actParm->ftype= defParm->type;
}
- actParm->argSym = resolveFromTable(defParm)->sym ;
+/* actParm->argSym = resolveFromTable(defParm)->sym ; */
+ actParm->argSym = defParm->sym;
/* 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);
+ (*parmNumber)++;
return 0;
}
/*-----------------------------------------------------------------*/
ilist = ilist->init.deep ;
iExpr = decorateType(resolveSymbols(list2expr(ilist)));
- return newNode('=',sym,iExpr);
+ return decorateType(newNode('=',sym,iExpr));
}
/*-----------------------------------------------------------------*/
if (!iloop)
break;
sflds->implicit = 1;
- lAst = decorateType(resolveSymbols(newNode('.',sym,
- newAst(EX_VALUE,symbolVal(sflds)))));
- rast = createIval (lAst, sflds->type, iloop,rast);
+ lAst = newNode(PTR_OP,newNode('&',sym,NULL),newAst_VALUE(symbolVal(sflds)));
+ lAst = decorateType(resolveSymbols(lAst));
+ rast = decorateType(resolveSymbols(createIval (lAst, sflds->type, iloop,rast)));
}
return rast ;
}
type,
decorateType(resolveSymbols(list2expr(ilist))))))
- return rast;
+ return decorateType(resolveSymbols(rast));
/* not the special case */
if (ilist->type != INIT_DEEP) {
ast *aSym ;
size++ ;
- aSym = newNode('[',sym,newAst(EX_VALUE,valueFromLit(size-1)));
+ aSym = newNode('[',sym,newAst_VALUE(valueFromLit(size-1)));
aSym = decorateType(resolveSymbols(aSym));
rast = createIval (aSym,type->next,iloop,rast) ;
iloop = (iloop ? iloop->next : NULL) ;
if (!DCL_ELEM(type))
DCL_ELEM(type) = size;
- return rast;
+ return decorateType(resolveSymbols(rast));
}
rast,
newNode('=',
newNode('[', sym,
- newAst(EX_VALUE,valueFromLit(i))),
- newAst(EX_VALUE,valueFromLit(*s))));
+ newAst_VALUE(valueFromLit(i))),
+ newAst_VALUE(valueFromLit(*s))));
i++;
s++;
}
rast,
newNode('=',
newNode('[', sym,
- newAst(EX_VALUE,valueFromLit(i))),
- newAst(EX_VALUE,valueFromLit(*s))));
- return rast;
+ newAst_VALUE(valueFromLit(i))),
+ newAst_VALUE(valueFromLit(*s))));
+ return decorateType(resolveSymbols(rast));
}
return NULL ;
if (IS_SPEC(type))
rast = createIvalType (sym,type,ilist);
if ( wid )
- return newNode(NULLOP,wid,rast);
+ return decorateType(resolveSymbols(newNode(NULLOP,wid,rast)));
else
- return rast ;
+ return decorateType(resolveSymbols(rast)) ;
}
/*-----------------------------------------------------------------*/
-/* initAggregates - initialises aggregate variables with initv */
+/* initAggregates - initialises aggregate variables with initv */
/*-----------------------------------------------------------------*/
ast *initAggregates ( symbol *sym, initList *ival, ast *wid)
{
- return createIval (newAst(EX_VALUE,symbolVal(sym)),sym->type,ival,wid);
+ return createIval (newAst_VALUE(symbolVal(sym)),sym->type,ival,wid);
}
/*-----------------------------------------------------------------*/
if (IS_AGGREGATE(sym->type))
work = initAggregates (sym, sym->ival,NULL);
else
- work = newNode('=' ,newAst(EX_VALUE,symbolVal(newSym)),
+ work = newNode('=' ,newAst_VALUE(symbolVal(newSym)),
list2expr(sym->ival));
setAstLineno(work,sym->lineDef);
if (IS_AGGREGATE(sym->type))
work = initAggregates (sym,sym->ival,NULL);
else
- work = newNode('=' ,newAst(EX_VALUE,symbolVal(sym)),
+ work = newNode('=' ,newAst_VALUE(symbolVal(sym)),
list2expr(sym->ival));
setAstLineno (work,sym->lineDef);
sym->block = sym->level = 0;
sym->isstrlit = 1;
/* create an ival */
- sym->ival = newiList(INIT_NODE,newAst(EX_VALUE,val));
+ sym->ival = newiList(INIT_NODE,newAst_VALUE(val));
if (noAlloc == 0) {
/* allocate it */
addSymChain(sym);
isSymbolEqual (*sym,AST_SYMBOL(condExpr->left->left))) {
*end = newNode('+', condExpr->left->right,
- newAst(EX_VALUE,constVal("1")));
+ newAst_VALUE(constVal("1")));
break;
}
return FALSE ;
return FALSE;
else
return isConformingBody(pbody->left,sym,body) ;
- }
+ } else {
+ if (astHasSymbol(pbody->left,sym) ||
+ astHasSymbol(pbody->right,sym))
+ return FALSE;
+ }
+
/*------------------------------------------------------------------*/
case '|':
body->type = EX_OP;
body->opval.op = '-';
- body->left = newAst(EX_VALUE,symbolVal(sym));
- body->right= newAst(EX_VALUE,constVal("1"));
+ body->left = newAst_VALUE(symbolVal(sym));
+ body->right= newAst_VALUE(constVal("1"));
}
/* put it together piece by piece */
rloop = newNode (NULLOP,
- createIf(newAst(EX_VALUE,symbolVal(sym)),
+ createIf(newAst_VALUE(symbolVal(sym)),
newNode(GOTO,
- newAst(EX_VALUE,
- symbolVal(AST_FOR(loop,continueLabel))),
+ newAst_VALUE(symbolVal(AST_FOR(loop,continueLabel))),
NULL),NULL),
newNode('=',
- newAst(EX_VALUE,symbolVal(sym)),
+ newAst_VALUE(symbolVal(sym)),
newNode('-', end,
- newAst(EX_VALUE,
- constVal("1")))));
+ newAst_VALUE(constVal("1")))));
replLoopSym(loop->left, sym);
rloop = newNode(NULLOP,
newNode('=',
- newAst(EX_VALUE,symbolVal(sym)),
+ newAst_VALUE(symbolVal(sym)),
newNode('-',end,init)),
createLabel(AST_FOR(loop,continueLabel),
newNode(NULLOP,
loop->left,
newNode(NULLOP,
newNode(SUB_ASSIGN,
- newAst(EX_VALUE,symbolVal(sym)),
- newAst(EX_VALUE,constVal("1"))),
+ newAst_VALUE(symbolVal(sym)),
+ newAst_VALUE(constVal("1"))),
rloop ))));
return decorateType(rloop);
/* otherwise just copy the type information */
COPYTYPE(TTYPE(tree),TETYPE(tree),tree->opval.val->type);
+ if (funcInChain(tree->opval.val->type)) {
+ tree->hasVargs = tree->opval.val->sym->hasVargs;
+ tree->args = copyValueChain(tree->opval.val->sym->args) ;
+ }
return tree ;
}
}
if (SPEC_SCLS(tree->left->etype) == S_CODE) {
DCL_TYPE(p) = CPOINTER ;
- DCL_PTR_CONST(p) = 1;
+ DCL_PTR_CONST(p) = port->mem.code_ro;
}
else
if (SPEC_SCLS(tree->left->etype) == S_XDATA)
if (SPEC_SCLS(tree->left->etype) == S_IDATA)
DCL_TYPE(p) = IPOINTER ;
else
- if (SPEC_SCLS(tree->left->etype) == S_FLASH)
- DCL_TYPE(p) = FLPOINTER ;
+ if (SPEC_SCLS(tree->left->etype) == S_EEPROM)
+ DCL_TYPE(p) = EEPPOINTER ;
else
DCL_TYPE(p) = POINTER ;
return tree;
}
LRVAL(tree) = RRVAL(tree) = 1;
- COPYTYPE(TTYPE(tree),TETYPE(tree),LTYPE(tree));
+ if (IS_LITERAL(LTYPE(tree)) && !IS_LITERAL(RTYPE(tree))) {
+ COPYTYPE(TTYPE(tree),TETYPE(tree),RTYPE(tree));
+ } else {
+ COPYTYPE(TTYPE(tree),TETYPE(tree),LTYPE(tree));
+ }
return tree ;
/*------------------------------------------------------------------*/
/*----------------------------*/
/* casting */
/*----------------------------*/
- case CAST : /* change the type */
+ case CAST: /* change the type */
/* cannot cast to an aggregate type */
if (IS_AGGREGATE(LTYPE(tree))) {
werror(E_CAST_ILLEGAL);
/* logical &&, || */
/*----------------------------*/
case AND_OP:
- case OR_OP :
+ case OR_OP:
/* each must me arithmetic type or be a pointer */
if (!IS_PTR(LTYPE(tree)) &&
!IS_ARRAY(LTYPE(tree)) &&
if (checkType(currFunc->type->next,RTYPE(tree)) < 0 ) {
tree->right =
decorateType(newNode(CAST,
- newAst(EX_LINK,
- copyLinkChain(currFunc->type->next)),
+ newAst_LINK(copyLinkChain(currFunc->type->next)),
tree->right));
}
/* change not */
if (IS_NOT(tree)) {
+ int wasnot = IS_NOT(tree->left);
tree->left = backPatchLabels (tree->left,falseLabel,trueLabel);
/* if the left is already a IFX */
if ( ! IS_IFX(tree->left) )
tree->left = newNode (IFX,tree->left,NULL);
- tree->left->trueLabel = falseLabel ;
- tree->left->falseLabel= trueLabel ;
+ if (wasnot) {
+ tree->left->trueLabel = trueLabel ;
+ tree->left->falseLabel= falseLabel ;
+ } else {
+ tree->left->trueLabel = falseLabel ;
+ tree->left->falseLabel= trueLabel ;
+ }
return tree->left ;
}
label->islbl = 1;
label->key = labelKey++ ;
- rValue = newNode (LABEL,newAst(EX_VALUE,symbolVal(label)),stmnt);
+ rValue = newNode (LABEL,newAst_VALUE(symbolVal(label)),stmnt);
rValue->lineno = 0;
return rValue ;
if ( elseBody ) {
ifBody = newNode(NULLOP,ifBody,
newNode(GOTO,
- newAst(EX_VALUE,symbolVal(ifEnd)),
+ newAst_VALUE(symbolVal(ifEnd)),
NULL));
/* put the elseLabel on the else body */
elseBody = createLabel (ifFalse,elseBody);
newNode(NULLOP,
loopExpr,
newNode(GOTO,
- newAst(EX_VALUE,symbolVal(condLabel)),
+ newAst_VALUE(symbolVal(condLabel)),
NULL)));
/* now start putting them together */
forTree = newNode(NULLOP,initExpr,condExpr);
whileBody = newNode(NULLOP,
whileBody,
newNode(GOTO,
- newAst(EX_VALUE,
- symbolVal(continueLabel)),
+ newAst_VALUE(symbolVal(continueLabel)),
createLabel(falseLabel,NULL)));
/* put it all together */
case '>' :
case '<' :
case NE_OP :
- optExpr = newAst(EX_VALUE,constVal("0"));
+ optExpr = newAst_VALUE(constVal("0"));
break;
case GE_OP :
case LE_OP :
case EQ_OP :
- optExpr = newAst(EX_VALUE,constVal("1"));
+ optExpr = newAst_VALUE(constVal("1"));
break;
}
case '<' : /* bit value < 1 means 0 */
case NE_OP :
- optExpr = newNode('!',newAst(EX_VALUE,vleft),NULL);
+ optExpr = newNode('!',newAst_VALUE(vleft),NULL);
break;
case LE_OP : /* bit value <= 1 means no check */
- optExpr = newAst(EX_VALUE,vright);
+ optExpr = newAst_VALUE(vright);
break;
case GE_OP : /* bit value >= 1 means only check for = */
case EQ_OP :
- optExpr = newAst(EX_VALUE,vleft);
+ optExpr = newAst_VALUE(vleft);
break;
}
} else { /* literal is zero */
case '>' : /* bit value > 0 means 1 */
case NE_OP :
- optExpr = newAst(EX_VALUE,vleft);
+ optExpr = newAst_VALUE(vleft);
break;
case LE_OP : /* bit value <= 0 means no check */
break;
case EQ_OP : /* bit == 0 means ! of bit */
- optExpr = newNode('!',newAst(EX_VALUE,vleft),NULL);
+ optExpr = newNode('!',newAst_VALUE(vleft),NULL);
break;
}
}
we need to add the name to the publics list : this
actually means we are now compiling the compiler
support routine */
- if (name->cdef)
+ if (name->cdef) {
addSet(&publics,name);
+ }
}
else {
addSymChain(name);
name->stack = SPEC_STAK(fetype) = stack;
/* name needs to be mangled */
- sprintf (name->rname,"_%s",name->name);
+ sprintf (name->rname,"%s%s", port->fun_prefix, name->name);
body = resolveSymbols(body); /* resolve the symbols */
body = decorateType (body); /* propagateType & do semantic checks */
- ex = newAst (EX_VALUE, symbolVal(name)); /* create name */
+ ex = newAst_VALUE(symbolVal(name)); /* create name */
ex = newNode (FUNCTION,ex,body);
ex->values.args = name->args ;
addSet(&operKeyReset,name);
applyToSet(operKeyReset,resetParmKey);
- if (options.debug)
+ if (options.debug && !options.nodebug)
cdbStructBlock(1,cdbFile);
cleanUpLevel(LabelTab,0);