c1aca7dae5
--HG-- branch : dtrg-buildsystem rename : lang/cem/cpp.ansi/Parameters => lang/cem/cpp.ansi/parameters.h
635 lines
15 KiB
C
635 lines
15 KiB
C
/*
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* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
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* See the copyright notice in the ACK home directory, in the file "Copyright".
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*/
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/* $Id$ */
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/* A R I T H M E T I C C O N V E R S I O N S */
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/* This file contains the routines for the various conversions that
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may befall operands in C. It is structurally a mess, but I haven't
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decided yet whether I can't find the right structure or the
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semantics of C is a mess.
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*/
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#include "parameters.h"
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#include <alloc.h>
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#include <flt_arith.h>
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#include "arith.h"
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#include "sizes.h"
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#include "type.h"
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#include "proto.h"
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#include "label.h"
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#include "expr.h"
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#include "Lpars.h"
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#include "field.h"
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#include "mes.h"
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#include "assert.h"
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extern char *symbol2str();
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extern char options[];
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extern arith flt_flt2arith();
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extern label code_string();
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arithbalance(e1p, oper, e2p) /* 3.1.2.5 */
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register struct expr **e1p, **e2p;
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int oper;
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{
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/* The expressions *e1p and *e2p are balanced to be operands
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of the arithmetic operator oper.
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We check here if the EX_PTRDIFF flag should be retained.
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They are set to zero in because one of the opreands might
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have a floating type, in which case the flags shouldn't
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travel upward in the expression tree.
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*/
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register int t1, t2, u1, u2;
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int shifting = (oper == LEFT || oper == RIGHT
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|| oper == LEFTAB || oper == RIGHTAB);
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int ptrdiff = 0;
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t1 = any2arith(e1p, oper);
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t2 = any2arith(e2p, oper);
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if (int_size != pointer_size) {
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if (ptrdiff = ((*e1p)->ex_flags & EX_PTRDIFF)
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|| ((*e2p)->ex_flags & EX_PTRDIFF)) {
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if (!((*e1p)->ex_flags & EX_PTRDIFF) && t1 == LONG)
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ptrdiff = 0;
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if (!((*e2p)->ex_flags & EX_PTRDIFF) && t2 == LONG
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&& !shifting)
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ptrdiff = 0;
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}
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/* Now turn off ptrdiff flags */
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(*e1p)->ex_flags &= ~EX_PTRDIFF;
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(*e2p)->ex_flags &= ~EX_PTRDIFF;
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}
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/* Now t1 and t2 are either INT, LONG, FLOAT, DOUBLE, or LNGDBL */
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/* If any operand has the type long double, the other operand
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is converted to long double.
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*/
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/* ??? t1 == LNGDBL, t2 == DOUBLE */
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if (t1 == LNGDBL) {
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if (t2 != LNGDBL) {
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if (t2 == DOUBLE || t2 == FLOAT)
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float2float(e2p, lngdbl_type);
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else
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int2float(e2p, lngdbl_type);
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}
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return;
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} else if (t2 == LNGDBL) {
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if (t1 != LNGDBL)
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if (t1 == DOUBLE || t1 == FLOAT)
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float2float(e1p, lngdbl_type);
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else
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int2float(e1p, lngdbl_type);
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return;
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}
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/* If any operand has the type double, the other operand
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is converted to double.
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*/
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if (t1 == DOUBLE) {
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if (t2 == FLOAT)
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float2float(e2p, double_type);
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else if (t2 != DOUBLE)
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int2float(e2p, double_type);
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return;
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} else if (t2 == DOUBLE) {
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if (t1 == FLOAT)
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float2float(e1p, double_type);
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else if (t1 != DOUBLE)
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int2float(e1p, double_type);
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return;
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}
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/* If any operand has the type float, the other operand
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is converted to float.
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*/
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if (t1 == FLOAT) {
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if (t2 != FLOAT)
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int2float(e2p, float_type);
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return;
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} else if (t2 == FLOAT) {
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if (t1 != FLOAT)
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int2float(e1p, float_type);
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return;
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}
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/* Now they are INT or LONG */
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u1 = (*e1p)->ex_type->tp_unsigned;
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u2 = (*e2p)->ex_type->tp_unsigned;
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/* If either operand has type unsigned long int, the other
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operand is converted to unsigned long int.
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*/
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if (t1 == LONG && u1 && (t2 != LONG || !u2))
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t2 = int2int(e2p, ulong_type);
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else if (t2 == LONG && u2 && (t1 != LONG || !u1)
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&& !shifting) /* ??? */
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t1 = int2int(e1p, ulong_type);
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/* If one operand has type long int and the other has type unsigned
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int, if a long int can represent all values of an unsigned int,
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the operand of type unsigned int is converted to long int; if
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a long int cannot represent all values of an unsigned int,
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both operands are converted to unsigned long int.
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*/
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if (t1 == LONG && t2 == INT && u2)
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t2 = int2int(e2p, (int_size<long_size)? long_type : ulong_type);
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else if (t2 == LONG && t1 == INT && u1 && !shifting) /* ??? */
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t1 = int2int(e1p, (int_size<long_size)? long_type : ulong_type);
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/* If either operand has type long int, the other operand is con-
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verted to long int.
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*/
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if (t1 == LONG && t2 != LONG)
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t2 = int2int(e2p, long_type);
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else
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if (t2 == LONG && t1 != LONG && !shifting) /* ??? */
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t1 = int2int(e1p, long_type);
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u1 = (*e1p)->ex_type->tp_unsigned;
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u2 = (*e2p)->ex_type->tp_unsigned;
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/* If either operand has type unsigned int, the other operand
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is converted to unsigned int.
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Otherwise, both operands have type int.
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*/
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if (u1 && !u2 && !shifting)
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t2 = int2int(e2p, (t1 == LONG) ? ulong_type : uint_type);
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else
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if (!u1 && u2 && !shifting)
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t1 = int2int(e1p, (t2 == LONG) ? ulong_type : uint_type);
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if (int_size != pointer_size) {
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if (ptrdiff) {
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(*e1p)->ex_flags |= EX_PTRDIFF;
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(*e2p)->ex_flags |= EX_PTRDIFF;
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}
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}
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}
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relbalance(e1p, oper, e2p)
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register struct expr **e1p, **e2p;
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{
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/* The expressions *e1p and *e2p are balanced to be operands
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of the relational operator oper, or the ':'.
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Care is taken to switch the operands in case of a
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null-pointer constant. This is done so that ch3cast()
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allows assignments of a null-pointer to a function
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pointer.
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*/
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register struct expr *e1 = *e1p, *e2 = *e2p;
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struct expr *tmpexpr;
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if (e1->ex_type->tp_fund == POINTER
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&& is_cp_cst(e1)
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&& e1->VL_VALUE == 0) {
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tmpexpr = e1;
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e1 = e2;
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e2 = tmpexpr;
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}
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if (e1->ex_type->tp_fund == POINTER)
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ch3pointer(e2p, oper, e1->ex_type);
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else if (e2->ex_type->tp_fund == POINTER)
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ch3pointer(e1p, oper, e2->ex_type);
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else if (e1->ex_type == e2->ex_type
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&& e1->ex_type->tp_fund == ENUM) {}
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else if (oper == ':'
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&& e1->ex_type->tp_fund == VOID
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&& e2->ex_type->tp_fund == VOID) {}
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else
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arithbalance(e1p, oper, e2p);
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}
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ch3pointer(expp, oper, tp)
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struct expr **expp;
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register struct type *tp;
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{
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/* Checks whether *expp may be compared to tp using oper,
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as described in chapter 3.3.8 and 3.3.9.
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tp is known to be a pointer.
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*/
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register struct expr *exp = *expp;
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if (exp->ex_type->tp_fund == POINTER) {
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if (exp->ex_type != tp)
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ch3cast(expp, oper, tp);
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}
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else
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if (is_integral_type(exp->ex_type)) {
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if ((oper != EQUAL && oper != NOTEQUAL && oper != ':')
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|| !(is_cp_cst(exp) && exp->VL_VALUE == 0)) {
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expr_error(exp,"%s on %s and pointer",
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symbol2str(oper),
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symbol2str(exp->ex_type->tp_fund));
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}
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ch3cast(expp, CAST, tp);
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}
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else {
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expr_error(exp, "%s on %s and pointer",
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symbol2str(oper),
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symbol2str(exp->ex_type->tp_fund)
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);
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ch3cast(expp, oper, tp);
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}
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}
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int
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any2arith(expp, oper)
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register struct expr **expp;
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register int oper;
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{
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/* Turns any expression into int_type, long_type,
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float_type, double_type or lngdbl_type.
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*/
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int fund;
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switch (fund = (*expp)->ex_type->tp_fund) {
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case CHAR:
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case SHORT:
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ASSERT((*expp)->ex_type->tp_size <= int_type->tp_size);
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if ((*expp)->ex_type->tp_unsigned
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&& (*expp)->ex_type->tp_size == int_type->tp_size) {
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int2int(expp, uint_type);
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} else {
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int2int(expp, int_type);
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}
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break;
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case INT:
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case LONG:
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break;
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case ENUM:
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#ifndef LINT
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/* we do not want this conversion for lint, since we
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want to keep enums and ints separate
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*/
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int2int(expp, int_type);
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#endif /* LINT */
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break;
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case FLOAT:
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/* only when it is a parameter and the default promotion should
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occur. Hence this code is moved to any2parameter().
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float2float(expp, double_type);
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break;
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*/
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case DOUBLE:
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case LNGDBL:
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break;
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#ifndef NOBITFIELD
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case FIELD:
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field2arith(expp);
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break;
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#endif /* NOBITFIELD */
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default:
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expr_error(*expp, "operator %s on non-numerical operand (%s)",
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symbol2str(oper), symbol2str(fund));
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case ERRONEOUS:
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erroneous2int(expp);
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break;
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}
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return (*expp)->ex_type->tp_fund;
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}
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erroneous2int(expp)
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struct expr **expp;
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{
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/* the (erroneous) expression *expp is replaced by an
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int expression
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*/
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register struct expr *exp = *expp;
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int flags = exp->ex_flags;
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free_expression(exp);
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exp = intexpr((arith)0, INT);
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exp->ex_flags = (flags | EX_ERROR);
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*expp = exp;
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}
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struct expr *
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arith2arith(tp, oper, expr)
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struct type *tp;
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int oper;
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register struct expr *expr;
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{
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/* arith2arith constructs a new expression containing a
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run-time conversion between some arithmetic types.
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*/
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register struct expr *new = new_expr();
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new->ex_file = expr->ex_file;
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new->ex_line = expr->ex_line;
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new->ex_type = tp;
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new->ex_class = Type;
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return new_oper(tp, new, oper, expr);
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}
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int
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int2int(expp, tp)
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struct expr **expp;
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register struct type *tp;
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{
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/* The expression *expp, which is of some integral type, is
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converted to the integral type tp.
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*/
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register struct expr *exp = *expp;
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if (is_cp_cst(exp)) {
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register struct type *tp1 = exp->ex_type;
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exp->ex_type = tp;
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if (! tp1->tp_unsigned && tp->tp_unsigned) {
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/* Avoid "unreal" overflow warnings, such as
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caused by f.i.:
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unsigned int x = ~0;
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unsigned int y = -1;
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*/
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extern long full_mask[];
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long remainder = exp->VL_VALUE &
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~full_mask[(int)(tp->tp_size)];
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if (remainder == 0 ||
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remainder == ~full_mask[(int)(tp->tp_size)]) {
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exp->VL_VALUE &= ~remainder;
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}
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}
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cut_size(exp);
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}
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else {
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exp = arith2arith(tp, INT2INT, exp);
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}
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*expp = exp;
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return exp->ex_type->tp_fund;
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}
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/* With compile-time constants, we don't set fp_used, since this is done
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* only when necessary in eval.c.
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*/
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int2float(expp, tp)
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register struct expr **expp;
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struct type *tp;
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{
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/* The expression *expp, which is of some integral type, is
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converted to the floating type tp.
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*/
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register struct expr *exp = *expp;
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int uns = exp->ex_type->tp_unsigned;
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if (is_cp_cst(exp)) {
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exp->ex_type = tp;
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exp->ex_class = Float;
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flt_arith2flt(exp->VL_VALUE, &(exp->FL_ARITH), uns);
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}
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else {
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fp_used = 1;
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*expp = arith2arith(tp, INT2FLOAT, *expp);
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}
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}
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float2int(expp, tp)
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struct expr **expp;
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struct type *tp;
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{
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/* The expression *expp, which is of some floating type, is
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converted to the integral type tp.
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*/
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register struct expr *ex = *expp;
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if (is_fp_cst(ex)) {
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arith ar = flt_flt2arith(&ex->FL_ARITH, tp->tp_unsigned);
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if (flt_status == FLT_OVFL)
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expr_warning(ex,"overflow in float to int conversion");
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else if (flt_status == FLT_UNFL)
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expr_warning(ex,"underflow in float to unsigned conversion");
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ex->ex_type = tp;
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/* The following lines are copied from fill_int_expr */
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ex->ex_class = Value;
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ex->VL_CLASS = Const;
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ex->VL_VALUE = ar;
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cut_size(ex);
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} else {
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fp_used = 1;
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*expp = arith2arith(tp, FLOAT2INT, ex);
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}
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}
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float2float(expp, tp)
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register struct expr **expp;
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struct type *tp;
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{
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/* The expression *expp, which is of some floating type, is
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converted to the floating type tp.
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There is no need for an explicit conversion operator
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if the expression is a constant.
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*/
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if (is_fp_cst(*expp))
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(*expp)->ex_type = tp;
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else {
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fp_used = 1;
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*expp = arith2arith(tp, FLOAT2FLOAT, *expp);
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}
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}
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array2pointer(exp)
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register struct expr *exp;
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{
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/* The expression, which must be an array, is converted
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to a pointer.
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*/
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exp->ex_type = construct_type(POINTER, exp->ex_type->tp_up
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, /* exp->ex_type->tp_typequal */ 0
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, (arith)0, NO_PROTO);
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}
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function2pointer(exp)
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register struct expr *exp;
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{
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/* The expression, which must be a function, is converted
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to a pointer to the function.
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*/
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exp->ex_type = construct_type(POINTER, exp->ex_type, 0,
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(arith)0, NO_PROTO);
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}
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string2pointer(ex)
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register struct expr *ex;
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{
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/* The expression, which must be a string constant, is converted
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to a pointer to the string-containing area.
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*/
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label lbl;
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lbl = code_string(ex->SG_VALUE, ex->SG_LEN);
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ex->ex_class = Value;
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ex->VL_CLASS = Label;
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ex->VL_LBL = lbl;
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ex->VL_VALUE = (arith)0;
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}
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opnd2integral(expp, oper)
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register struct expr **expp;
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int oper;
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{
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register int fund = (*expp)->ex_type->tp_fund;
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if (fund != INT && fund != LONG) {
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expr_error(*expp, "%s operand to %s",
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symbol2str(fund), symbol2str(oper));
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erroneous2int(expp);
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/* fund = INT; */
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}
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}
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opnd2logical(expp, oper)
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register struct expr **expp;
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int oper;
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{
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int fund = (*expp)->ex_type->tp_fund;
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if (fund == FUNCTION || fund == ARRAY) {
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expr_warning(*expp, "%s operand to %s",
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symbol2str(fund),
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symbol2str(oper));
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if (fund == FUNCTION) function2pointer(*expp);
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else array2pointer(*expp);
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}
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#ifndef NOBITFIELD
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else
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if (fund == FIELD)
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field2arith(expp);
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#endif /* NOBITFIELD */
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switch (fund = (*expp)->ex_type->tp_fund) {
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case CHAR:
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case SHORT:
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case INT:
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case LONG:
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case ENUM:
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case POINTER:
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case FLOAT:
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case DOUBLE:
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case LNGDBL:
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break;
|
|
default:
|
|
expr_error(*expp, "%s operand to %s",
|
|
symbol2str(fund), symbol2str(oper));
|
|
case ERRONEOUS:
|
|
erroneous2int(expp);
|
|
break;
|
|
}
|
|
}
|
|
|
|
opnd2test(expp, oper)
|
|
register struct expr **expp;
|
|
{
|
|
opnd2logical(expp, oper);
|
|
if ((*expp)->ex_class == Oper) {
|
|
switch((*expp)->OP_OPER) {
|
|
case '<':
|
|
case '>':
|
|
case LESSEQ:
|
|
case GREATEREQ:
|
|
case EQUAL:
|
|
case NOTEQUAL:
|
|
case '!':
|
|
case AND:
|
|
case OR: /* && and || also impose a test */
|
|
/* It is already a test */
|
|
return;
|
|
case ',':
|
|
opnd2test(&((*expp)->OP_RIGHT), oper);
|
|
return;
|
|
}
|
|
}
|
|
ch3bin(expp, NOTEQUAL, intexpr((arith)0, INT));
|
|
}
|
|
|
|
any2opnd(expp, oper)
|
|
register struct expr **expp;
|
|
{
|
|
if (!*expp)
|
|
return;
|
|
|
|
if (oper == SIZEOF || oper == ADDRESSOF) return;
|
|
|
|
switch ((*expp)->ex_type->tp_fund) {
|
|
case CHAR:
|
|
case SHORT:
|
|
case ENUM:
|
|
/* case FLOAT: /* not necessary anymore */
|
|
any2arith(expp, oper);
|
|
break;
|
|
case ARRAY:
|
|
array2pointer(*expp);
|
|
break;
|
|
case POINTER:
|
|
if ((*expp)->ex_class == String)
|
|
string2pointer(*expp);
|
|
break;
|
|
case FUNCTION:
|
|
function2pointer(*expp);
|
|
break;
|
|
#ifndef NOBITFIELD
|
|
case FIELD:
|
|
field2arith(expp);
|
|
break;
|
|
#endif /* NOBITFIELD */
|
|
}
|
|
}
|
|
|
|
any2parameter(expp)
|
|
register struct expr **expp;
|
|
{
|
|
/* To handle default argument promotions
|
|
*/
|
|
any2opnd(expp, '(');
|
|
if (int_size != pointer_size)
|
|
if ((*expp)->ex_flags & EX_PTRDIFF)
|
|
expr_warning(*expp, "pointer difference caused long expression");
|
|
if ((*expp)->ex_type->tp_fund == FLOAT)
|
|
float2float(expp, double_type);
|
|
}
|
|
|
|
#ifndef NOBITFIELD
|
|
field2arith(expp)
|
|
register struct expr **expp;
|
|
{
|
|
/* The expression to extract the bitfield value from the
|
|
memory word is put in the tree.
|
|
*/
|
|
register struct type *tp = (*expp)->ex_type->tp_up;
|
|
register struct field *fd = (*expp)->ex_type->tp_field;
|
|
|
|
(*expp)->ex_type = word_type;
|
|
|
|
if (tp->tp_unsigned) { /* don't worry about the sign bit */
|
|
if (fd->fd_width >= 8 * (int)word_size)
|
|
(*expp)->ex_type = uword_type;
|
|
ch3bin(expp, RIGHT, intexpr((arith)fd->fd_shift, INT));
|
|
ch3bin(expp, '&', intexpr(fd->fd_mask, INT));
|
|
}
|
|
else { /* take care of the sign bit: sign extend if needed */
|
|
arith other_bits = (int)word_size * 8 - fd->fd_width;
|
|
|
|
ch3bin(expp, LEFT,
|
|
intexpr(other_bits - fd->fd_shift,
|
|
INT)
|
|
);
|
|
ch3bin(expp, RIGHT, intexpr(other_bits, INT));
|
|
}
|
|
}
|
|
#endif /* NOBITFIELD */
|
|
|
|
/* switch_sign_fp() negates the given floating constant expression,
|
|
* and frees the string representing the old value.
|
|
*/
|
|
switch_sign_fp(expr)
|
|
register struct expr *expr;
|
|
{
|
|
flt_umin(&(expr->FL_ARITH));
|
|
}
|