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/* express.c - expression parsing routines for bcc */
/* Copyright (C) 1992 Bruce Evans */
#include "bcc.h"
#include "gencode.h"
#include "parse.h"
#include "reg.h"
#include "sc.h"
#include "scan.h"
#include "table.h" /* just for charptr for string constant */
#include "type.h"
PRIVATE unsigned insizeof; /* nest level for getsizeof */
/* used to avoid aborting undefined idents */
/* to 0 when they appear in a cpp expression */
/* under sizeof */
/* names of expression functions are related to the 15 precedence levels */
/* on p49 of K & R */
FORWARD struct nodestruct *cast_exp P((void));
FORWARD struct nodestruct *exp2 P((void));
FORWARD struct nodestruct *exp3to12 P((fastin_pt lprecedence));
FORWARD struct nodestruct *listargs P((void));
FORWARD struct nodestruct *postfix_exp P((bool_pt seenlp));
FORWARD struct nodestruct *primary_exp P((void));
FORWARD struct nodestruct *unary_exp P((void));
PRIVATE struct nodestruct *cast_exp()
{
struct nodestruct *nodeptr;
scalar_t scalar;
struct typestruct *vartype;
if (sym != LPAREN)
return unary_exp();
nextsym();
if ((vartype = typename()) == NULL)
return postfix_exp(TRUE);
rparen();
scalar = (nodeptr = cast_exp())->nodetype->scalar;
if (vartype->scalar & INT && scalar & (CHAR | SHORT | INT)
&& !((vartype->scalar ^ scalar) & UNSIGNED))
{
nodeptr->flags &= ~LVALUE;
return nodeptr; /* skip casts that are default promotions */
}
return castnode(vartype, nodeptr);
}
PUBLIC struct nodestruct *assignment_exp()
{
struct nodestruct *lhs;
op_pt op;
lhs = exp2();
if (sym >= ASSIGNOP && sym <= SUBABOP) /* assign-op syms in order! */
{
op = sym;
nextsym();
lhs = node(op, lhs, assignment_exp());
}
return lhs;
}
PUBLIC struct nodestruct *expression()
{
struct nodestruct *lhs;
lhs = assignment_exp();
while (sym == COMMA)
{
nextsym();
lhs = node(COMMAOP, lhs, assignment_exp());
}
return lhs;
}
PRIVATE struct nodestruct *exp2()
{
struct nodestruct *lhs;
struct nodestruct *rhs;
lhs = exp3to12(0);
if (sym == CONDOP)
{
nextsym();
rhs = expression();
colon();
lhs = node(CONDOP, lhs, node(COLONOP, rhs, exp2()));
}
return lhs;
}
PRIVATE struct nodestruct *exp3to12(lprecedence)
fastin_pt lprecedence;
{
struct nodestruct *lhs;
op_pt op;
fastin_t rprecedence;
lhs = cast_exp();
while (TRUE)
{
rprecedence = 0;
switch (sym)
{
case LOGOROP:
if ((fastin_t) lprecedence <= 1)
rprecedence = 2;
break;
case LOGANDOP:
if ((fastin_t) lprecedence <= 3)
rprecedence = 4;
break;
case OROP:
if ((fastin_t) lprecedence <= 5)
rprecedence = 6;
break;
case EOROP:
if ((fastin_t) lprecedence <= 7)
rprecedence = 8;
break;
case AMPERSAND:
if ((fastin_t) lprecedence <= 9)
{
sym = ANDOP;
rprecedence = 10;
}
break;
case EQOP:
case NEOP:
if ((fastin_t) lprecedence <= 11)
rprecedence = 12;
break;
case GEOP:
case GTOP:
case LEOP:
case LTOP:
if ((fastin_t) lprecedence <= 13)
rprecedence = 14;
break;
case SLOP:
case SROP:
if ((fastin_t) lprecedence <= 15)
rprecedence = 16;
break;
case HYPHEN:
if ((fastin_t) lprecedence <= 17)
{
sym = SUBOP;
rprecedence = 18;
}
break;
case ADDOP:
if ((fastin_t) lprecedence <= 17)
rprecedence = 18;
break;
case STAR:
if ((fastin_t) lprecedence <= 19)
{
sym = MULOP;
rprecedence = 20;
}
break;
case DIVOP:
case MODOP:
if ((fastin_t) lprecedence <= 19)
rprecedence = 20;
break;
}
if (rprecedence == 0)
break;
op = sym;
nextsym();
lhs = node(op, lhs, exp3to12(rprecedence));
}
return lhs;
}
PRIVATE struct nodestruct *listargs()
{
struct nodestruct *parent;
struct nodestruct *nextright;
if (sym == RPAREN)
{
nextsym();
return NULLNODE;
}
parent = node(arg1op, assignment_exp(), NULLNODE);
nextright = parent;
while (sym == COMMA)
{
nextsym();
nextright = nextright->right
= node(LISTOP, assignment_exp(), NULLNODE);
}
rparen();
return parent;
}
PRIVATE struct nodestruct *postfix_exp(seenlp)
bool_pt seenlp;
{
struct nodestruct *nodeptr;
struct symstruct *symptr;
if (seenlp)
{
nodeptr = expression();
rparen();
}
else
nodeptr = primary_exp();
while (TRUE)
{
switch (sym)
{
case DECSYM:
nextsym();
nodeptr = node(POSTDECOP, nodeptr, NULLNODE);
continue;
case INCSYM:
nextsym();
nodeptr = node(POSTINCOP, nodeptr, NULLNODE);
continue;
case LBRACKET:
nextsym();
nodeptr = node(INDIRECTOP, node(ADDOP, nodeptr, expression()),
NULLNODE);
rbracket();
continue;
case LPAREN:
nextsym();
nodeptr = node(FUNCOP, nodeptr, listargs());
{
register struct nodestruct *np;
for (np = nodeptr->right; np != NULL; np = np->right)
{
if (np->nodetype->scalar & RSCALAR)
{
np = nodeptr->left.nodeptr;
if (np->tag != LEAF)
printf_fp = TRUE;
else
{
unsigned len;
register char *name;
name = np->left.symptr->name.namep;
if ((len = strlen(name)) >= 6
&& strcmp(name + len - 6, "printf") == 0)
printf_fp = TRUE;
}
break;
}
}
for (np = nodeptr->right; np != NULL; np = np->right)
{
if (np->nodetype->constructor & POINTER
&& np->nodetype->nexttype->scalar & RSCALAR)
{
np = nodeptr->left.nodeptr;
if (np->tag != LEAF)
scanf_fp = TRUE;
else
{
unsigned len;
register char *name;
name = np->left.symptr->name.namep;
if ((len = strlen(name)) >= 5
&& strcmp(name + len - 5, "scanf") == 0)
scanf_fp = TRUE;
}
break;
}
}
}
continue;
case STRUCPTROP:
nodeptr = node(INDIRECTOP, nodeptr, NULLNODE);
case STRUCELTOP:
nextsym();
gs2name[0] = nodeptr->nodetype->structkey[0];
gs2name[1] = nodeptr->nodetype->structkey[1];
if ((gsymptr = findlorg(gs2name)) == NULL)
{
error("undefined structure element");
gsymptr = addglb(gs2name, itype);
}
symptr = exprsym(gsymptr);
nextsym();
nodeptr = node(STRUCELTOP, nodeptr, leafnode(symptr));
continue;
default:
return nodeptr;
}
}
}
PRIVATE struct nodestruct *primary_exp()
{
bool_t isdefined;
struct nodestruct *nodeptr;
uoffset_T stringlen;
struct symstruct *symptr;
struct symstruct *symptr1;
bool_t waslparen;
switch (sym)
{
case IDENT:
if (incppexpr && !insizeof)
{
cpp_ident:
nextsym();
return leafnode(constsym((value_t) 0));
}
if ((symptr = gsymptr) != NULL)
nextsym();
else
{
symptr = addglb(gsname, fitype);
nextsym();
if (sym != LPAREN)
{
error2error(symptr->name.namea, " undeclared");
symptr->indcount = 1;
symptr->type = itype;
}
}
symptr1 = exprsym(symptr);
if (symptr->flags & STATIC && symptr->level != GLBLEVEL)
{
symptr1->flags |= LABELLED;
symptr1->offset.offi = 0;
symptr1->name.label = symptr->offset.offlabel;
}
nodeptr = leafnode(symptr1);
if (!(nodeptr->nodetype->constructor & (ARRAY | FUNCTION | VOID)))
nodeptr->flags = LVALUE;
return nodeptr;
case TYPEDEFNAME:
if (incppexpr && !insizeof)
goto cpp_ident; /* else fall through */
default:
error("bad expression");
constant.value.v = 0;
constant.type = itype;
case CHARCONST:
case INTCONST: /* this includes enumeration-constants */
symptr = constsym(constant.value.v);
symptr->type = constant.type;
if (!(ltype->scalar & LONG))
{
if (symptr->type == ltype)
symptr->type = itype;
else if (symptr->type == ultype)
symptr->type = uitype;
}
nextsym();
return leafnode(symptr);
case DEFINEDSYM:
waslparen = isdefined = FALSE;
if (!blanksident())
{
nextsym();
if (sym != LPAREN)
lparen();
else
waslparen = TRUE;
}
if (waslparen && !blanksident())
needvarname();
else
{
if ((symptr = findlorg(gsname)) != NULL &&
symptr->flags == DEFINITION)
isdefined = TRUE;
nextsym();
}
if (waslparen)
rparen();
return leafnode(constsym((value_t) isdefined));
case FLOATCONST:
symptr = constsym((value_t) 0);
symptr->type = constant.type;
symptr->offset.offd = qmalloc(sizeof *symptr->offset.offd);
*symptr->offset.offd = constant.value.d;
nextsym();
return leafnode(symptr);
case LPAREN:
nextsym();
nodeptr = expression();
rparen();
return nodeptr;
case STRINGCONST:
symptr = constsym((value_t) 0);
symptr->storage = GLOBAL;
symptr->flags = LABELLED | STRING;
/* string length before defstr() or prefix() updates charptr */
stringlen = charptr - constant.value.s + 1;
symptr->name.label = defstr(constant.value.s, charptr, FALSE);
symptr->type = prefix(ARRAY, stringlen, ctype);
nextsym();
return leafnode(symptr);
}
}
PRIVATE struct nodestruct *unary_exp()
{
value_t size;
struct typestruct *vartype;
switch (sym)
{
case ADDOP:
nextsym();
return cast_exp();
case AMPERSAND:
nextsym();
return node(ADDRESSOP, cast_exp(), NULLNODE); /* maybe unary_exp */
case DECSYM:
nextsym();
return node(PREDECOP, unary_exp(), NULLNODE);
case HYPHEN:
nextsym();
return node(NEGOP, cast_exp(), NULLNODE);
case INCSYM:
nextsym();
return node(PREINCOP, unary_exp(), NULLNODE);
case LOGNOTOP:
nextsym();
return node(LOGNOTOP, cast_exp(), NULLNODE);
case NOTOP:
nextsym();
return node(NOTOP, cast_exp(), NULLNODE);
case SIZEOFSYM:
nextsym();
++insizeof;
if (sym != LPAREN)
size = unary_exp()->nodetype->typesize;
else
{
nextsym();
if ((vartype = typename()) != NULL)
{
rparen();
size = vartype->typesize;
}
else
size = postfix_exp(TRUE)->nodetype->typesize;
}
--insizeof;
return leafnode(constsym(size));
case STAR:
nextsym();
return node(INDIRECTOP, cast_exp(), NULLNODE); /* maybe unary_exp */
}
return postfix_exp(FALSE);
}
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