719 lines
16 KiB
C
719 lines
16 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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/* $Header$ */
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/* S E M A N T I C A N A L Y S I S -- C H A P T E R 3.3 */
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#include "debug.h"
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#include "lint.h"
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#include "nobitfield.h"
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#include "idf.h"
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#include <flt_arith.h>
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#include "arith.h"
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#include "proto.h"
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#include "type.h"
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#include "struct.h"
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#include "label.h"
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#include "expr.h"
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#include "def.h"
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#include "Lpars.h"
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#include "assert.h"
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#include "file_info.h"
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extern char options[];
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extern char *symbol2str();
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extern struct type *qualifier_type();
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/* Most expression-handling routines have a pointer to a
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(struct type *) as first parameter. The object under the pointer
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gets updated in the process.
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*/
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ch3sel(expp, oper, idf)
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struct expr **expp;
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struct idf *idf;
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{
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/* The selector idf is applied to *expp; oper may be '.' or
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ARROW.
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*/
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register struct expr *exp;
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register struct type *tp;
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register struct sdef *sd;
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any2opnd(expp, oper);
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exp = *expp;
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tp = exp->ex_type;
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if (oper == ARROW) {
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if (tp->tp_fund == POINTER &&
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( tp->tp_up->tp_fund == STRUCT ||
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tp->tp_up->tp_fund == UNION)) /* normal case */
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tp = tp->tp_up;
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else { /* constructions like "12->selector" and
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"char c; c->selector"
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*/
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switch (tp->tp_fund) {
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case POINTER:
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break;
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case INT:
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case LONG:
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/* An error is given in idf2sdef() */
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ch3cast(expp, CAST, pa_type);
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sd = idf2sdef(idf, tp);
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tp = sd->sd_stype;
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break;
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default:
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expr_error(exp, "-> applied to %s",
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symbol2str(tp->tp_fund));
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case ERRONEOUS:
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exp->ex_type = error_type;
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return;
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}
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}
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} else { /* oper == '.' */
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/* nothing */
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}
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exp = *expp;
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switch (tp->tp_fund) {
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case POINTER: /* for int *p; p->next = ... */
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case STRUCT:
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case UNION:
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break;
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case INT:
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case LONG:
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/* warning will be given by idf2sdef() */
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break;
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default:
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if (!is_anon_idf(idf))
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expr_error(exp, "selector %s applied to %s",
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idf->id_text, symbol2str(tp->tp_fund));
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case ERRONEOUS:
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exp->ex_type = error_type;
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return;
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}
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sd = idf2sdef(idf, tp);
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if (oper == '.') {
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/* there are 3 cases in which the selection can be
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performed compile-time:
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I: n.sel (n either an identifier or a constant)
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II: (e.s1).s2 (transformed into (e.(s1+s2)))
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III: (e->s1).s2 (transformed into (e->(s1+s2)))
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The code performing these conversions is
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extremely obscure.
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*/
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if (exp->ex_class == Value) {
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/* It is an object we know the address of; so
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we can calculate the address of the
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selected member
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*/
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exp->VL_VALUE += sd->sd_offset;
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exp->ex_type = sd->sd_type;
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exp->ex_lvalue = exp->ex_type->tp_fund != ARRAY;
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if (exp->ex_type == error_type) {
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exp->ex_flags |= EX_ERROR;
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}
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}
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else
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if (exp->ex_class == Oper) {
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struct oper *op = &(exp->ex_object.ex_oper);
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if (op->op_oper == '.' || op->op_oper == ARROW) {
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ASSERT(is_cp_cst(op->op_right));
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op->op_right->VL_VALUE += sd->sd_offset;
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exp->ex_type = sd->sd_type;
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exp->ex_lvalue = exp->ex_type->tp_fund != ARRAY;
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if (exp->ex_type == error_type) {
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exp->ex_flags |= EX_ERROR;
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}
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}
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else {
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exp = new_oper(sd->sd_type, exp, '.',
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intexpr(sd->sd_offset, INT));
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exp->ex_lvalue = sd->sd_type->tp_fund != ARRAY;
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if (!exp->OP_LEFT->ex_lvalue)
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exp->ex_flags |= EX_ILVALUE;
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}
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}
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}
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else { /* oper == ARROW */
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if (is_ld_cst(exp)) {
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exp->VL_VALUE += sd->sd_offset;
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exp->ex_type = sd->sd_type;
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}
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else {
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exp = new_oper(sd->sd_type,
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exp, oper, intexpr(sd->sd_offset, INT));
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}
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exp->ex_lvalue = (sd->sd_type->tp_fund != ARRAY);
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exp->ex_flags &= ~EX_ILVALUE;
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}
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if (sd->sd_type->tp_typequal & TQ_CONST)
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exp->ex_flags |= EX_READONLY;
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if (sd->sd_type->tp_typequal & TQ_VOLATILE)
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exp->ex_flags |= EX_VOLATILE;
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if (oper == '.' && exp->ex_flags & EX_READONLY) {
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exp->ex_type = qualifier_type(exp->ex_type, TQ_CONST);
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}
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if (exp->ex_flags & EX_VOLATILE) {
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exp->ex_type = qualifier_type(exp->ex_type, TQ_VOLATILE);
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}
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*expp = exp;
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}
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ch3incr(expp, oper)
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struct expr **expp;
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{
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/* The monadic prefix/postfix incr/decr operator oper is
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applied to *expp.
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*/
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ch3asgn(expp, oper, intexpr((arith)1, INT));
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}
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ch3cast(expp, oper, tp)
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register struct expr **expp;
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register struct type *tp;
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{
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/* The expression *expp is cast to type tp; the cast is
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caused by the operator oper. If the cast has
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to be passed on to run time, its left operand will be an
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expression of class Type.
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*/
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register struct type *oldtp;
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register struct expr *exp = *expp;
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int qual_lev, ascompat = 0;
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if (oper == RETURN && tp->tp_fund == VOID) {
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expr_strict(exp, "return <expression> in function returning void");
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exp->ex_type = void_type;
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return;
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}
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if (exp->ex_type->tp_fund == FUNCTION) {
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function2pointer(exp);
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}
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if (exp->ex_type->tp_fund == ARRAY)
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array2pointer(exp);
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if (exp->ex_class == String)
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string2pointer(exp);
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oldtp = exp->ex_type;
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if (oldtp->tp_size <= 0 && oldtp->tp_fund != VOID) {
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expr_error(exp,"incomplete type in expression");
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}
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#ifndef NOBITFIELD
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if (oldtp->tp_fund == FIELD) {
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field2arith(expp);
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ch3cast(expp, oper, tp);
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return;
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}
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if (tp->tp_fund == FIELD) {
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ch3cast(expp, oper, tp->tp_up);
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return;
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}
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#endif NOBITFIELD
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switch (oper) {
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default: qual_lev = -1; break;
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case CAST: qual_lev = -999; break; /* ??? hack */
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case CASTAB:
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case '=':
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case RETURN: ascompat = 1; /* assignment compatibility */
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/* fallthrough */
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case '-':
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case '<':
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case '>':
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case LESSEQ:
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case GREATEREQ:
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case EQUAL:
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case NOTEQUAL:
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case ':':
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qual_lev = -2;
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break;
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}
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if (equal_type(tp, oldtp, qual_lev)) {
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/* life is easy */
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if (ascompat && tp->tp_fund == POINTER) {
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if ((tp->tp_up->tp_typequal & oldtp->tp_up->tp_typequal)
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!= oldtp->tp_up->tp_typequal) {
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expr_strict( exp, "qualifier error");
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}
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}
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exp->ex_type = tp; /* so qualifiers are allright */
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}
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else
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if (tp->tp_fund == VOID) {
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/* easy again */
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exp->ex_type = void_type;
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}
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else
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if (is_arith_type(oldtp) && is_arith_type(tp)) {
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int oldi = is_integral_type(oldtp);
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int i = is_integral_type(tp);
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if (oldi && i) {
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#ifdef LINT
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if (oper == CAST)
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exp->ex_type = tp;
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else {
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int2int(expp, tp);
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}
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#else LINT
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int2int(expp, tp);
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#endif LINT
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}
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else
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if (oldi && !i) {
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#ifdef LINT
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if (oper == CAST)
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exp->ex_type = tp;
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else {
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int2float(expp, tp);
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}
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#else LINT
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int2float(expp, tp);
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#endif LINT
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}
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else
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if (!oldi && i) {
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#ifdef LINT
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if (oper == CAST)
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exp->ex_type = tp;
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else {
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float2int(expp, tp);
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}
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#else LINT
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float2int(expp, tp);
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#endif LINT
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}
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else {
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/* !oldi && !i */
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#ifdef LINT
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if (oper == CAST)
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exp->ex_type = tp;
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else {
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float2float(expp, tp);
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}
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#else LINT
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float2float(expp, tp);
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#endif LINT
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}
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}
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else
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if (oldtp->tp_fund == POINTER && tp->tp_fund == POINTER) {
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switch (oper) {
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case EQUAL:
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case NOTEQUAL:
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case '=':
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case CASTAB:
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case RETURN:
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case ':':
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if (tp->tp_up && oldtp->tp_up) {
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if (tp->tp_up->tp_fund == VOID
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&& oldtp->tp_up->tp_fund != FUNCTION) {
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break; /* switch */
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}
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if (oldtp->tp_up->tp_fund == VOID
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&& tp->tp_up->tp_fund != FUNCTION) {
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break; /* switch */
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}
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if (oldtp->tp_up->tp_fund == VOID
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&& is_cp_cst(exp)
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&& exp->VL_VALUE == (arith)0)
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break; /* switch */
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}
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/* falltrough */
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default:
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if (oper == CASTAB)
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expr_strict(exp, "incompatible pointers in call");
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else
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expr_strict(exp, "incompatible pointers in %s",
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symbol2str(oper));
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break;
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case CAST: break;
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}
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#ifdef LINT
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if (oper != CAST)
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lint_ptr_conv(oldtp->tp_up->tp_fund, tp->tp_up->tp_fund);
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#endif LINT
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exp->ex_type = tp; /* free conversion */
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}
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else
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if (oldtp->tp_fund == POINTER && is_integral_type(tp)) {
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/* from pointer to integral */
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if (oper != CAST)
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expr_warning(exp,
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"illegal conversion of pointer to %s",
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symbol2str(tp->tp_fund));
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if (oldtp->tp_size > tp->tp_size)
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expr_warning(exp,
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"conversion of pointer to %s loses accuracy",
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symbol2str(tp->tp_fund));
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if (oldtp->tp_size != tp->tp_size) {
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int2int(expp, tp);
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} else
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exp->ex_type = tp;
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}
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else
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if (tp->tp_fund == POINTER && is_integral_type(oldtp)) {
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/* from integral to pointer */
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switch (oper) {
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case CAST:
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break;
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case CASTAB:
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case EQUAL:
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case NOTEQUAL:
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case '=':
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case RETURN:
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if (is_cp_cst(exp) && exp->VL_VALUE == (arith)0)
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break;
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default:
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expr_warning(exp,
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"illegal conversion of %s to pointer",
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symbol2str(oldtp->tp_fund));
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break;
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}
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if (oldtp->tp_size > tp->tp_size)
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expr_warning(exp,
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"conversion of %s to pointer loses accuracy",
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symbol2str(oldtp->tp_fund));
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if (oldtp->tp_size != tp->tp_size) {
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int2int(expp, tp);
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} else
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exp->ex_type = tp;
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}
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else
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if (oldtp->tp_fund == ERRONEOUS) {
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/* we just won't look */
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exp->ex_type = tp; /* brute force */
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}
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else
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if (oldtp->tp_size == tp->tp_size && oper == CAST) {
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expr_warning(exp, "dubious conversion based on equal size");
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exp->ex_type = tp; /* brute force */
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}
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else {
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if (oldtp->tp_fund != ERRONEOUS && tp->tp_fund != ERRONEOUS)
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expr_error(exp, "cannot convert %s to %s",
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symbol2str(oldtp->tp_fund),
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symbol2str(tp->tp_fund)
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);
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exp->ex_type = tp; /* brute force */
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}
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/* re-initialize exp, since *expp may have changed */
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exp = *expp;
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if (oper == CAST) {
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exp->ex_flags |= EX_ILVALUE;
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}
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}
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/* Determine whether two types are equal.
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*/
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equal_type(tp, otp, qual_lev)
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register struct type *tp, *otp;
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int qual_lev;
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{
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if (tp == otp)
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return 1;
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if (!tp
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|| !otp
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|| (tp->tp_fund != otp->tp_fund)
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|| (tp->tp_unsigned != otp->tp_unsigned)
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|| (tp->tp_align != otp->tp_align))
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return 0;
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if (tp->tp_size != otp->tp_size) {
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if (tp->tp_fund != ARRAY
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|| (tp->tp_size != -1 && otp->tp_size != -1))
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return 0;
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}
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if (qual_lev >= 0) {
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if (tp->tp_typequal != otp->tp_typequal)
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strict("illegal qualifiers");
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}
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switch (tp->tp_fund) {
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case FUNCTION:
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/* If both types have parameter type lists, the type of
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each parameter in the composite parameter type list
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is the composite type of the corresponding paramaters.
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*/
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if (tp->tp_proto && otp->tp_proto) {
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if (!equal_proto(tp->tp_proto, otp->tp_proto))
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return 0;
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} else if (tp->tp_proto || otp->tp_proto) {
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if (!legal_mixture(tp, otp))
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return 0;
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}
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return equal_type(tp->tp_up, otp->tp_up, qual_lev + 1);
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|
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case ARRAY:
|
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/* If one type is an array of known size, the composite
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type is an array of that size
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*/
|
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if (tp->tp_size != otp->tp_size &&
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(tp->tp_size != -1 && otp->tp_size != -1))
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return 0;
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return equal_type(tp->tp_up, otp->tp_up, qual_lev); /* ??? +1 */
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|
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case POINTER:
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return equal_type(tp->tp_up, otp->tp_up, qual_lev + 1);
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|
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case FIELD:
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return equal_type(tp->tp_up, otp->tp_up, qual_lev); /* ??? +1 */
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|
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case STRUCT:
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case UNION:
|
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case ENUM:
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return tp->tp_idf == otp->tp_idf && tp->tp_sdef == otp->tp_sdef;
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default:
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return 1;
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}
|
|
}
|
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|
|
check_pseudoproto(pl, opl)
|
|
register struct proto *pl, *opl;
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|
{
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|
int retval = 1;
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|
|
if (pl->pl_flag & PL_ELLIPSIS) {
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|
error("illegal ellipsis terminator");
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pl->pl_flag |= PL_ERRGIVEN;
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opl->pl_flag |= PL_ERRGIVEN;
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return 0;
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}
|
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if (opl->pl_flag & PL_VOID) {
|
|
if (!(pl->pl_flag & PL_VOID))
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strict("function is defined without parameters");
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return 0;
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}
|
|
while (pl && opl) {
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if (!equal_type(pl->pl_type, opl->pl_type, -1)) {
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if (!(pl->pl_flag & PL_ERRGIVEN)
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&& !(opl->pl_flag & PL_ERRGIVEN))
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error("incorrect type for parameter %s of definition",
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opl->pl_idf->id_text);
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pl->pl_flag |= PL_ERRGIVEN;
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opl->pl_flag |= PL_ERRGIVEN;
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retval = 0;
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}
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pl = pl->next;
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opl = opl->next;
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}
|
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if (pl || opl) {
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error("incorrect number of parameters");
|
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retval = 0;
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}
|
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return retval;
|
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}
|
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|
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legal_mixture(tp, otp)
|
|
struct type *tp, *otp;
|
|
{
|
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register struct proto *pl = tp->tp_proto, *opl = otp->tp_proto;
|
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int retval = 1;
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|
struct proto *prot;
|
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int fund;
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|
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ASSERT( (pl != 0) ^ (opl != 0));
|
|
if (pl) {
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prot = pl;
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} else {
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prot = opl;
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|
}
|
|
if (!opl && otp->tp_pseudoproto) {
|
|
return check_pseudoproto(tp->tp_proto, otp->tp_pseudoproto);
|
|
}
|
|
|
|
if (prot->pl_flag & PL_ELLIPSIS) {
|
|
if (!(prot->pl_flag & PL_ERRGIVEN)) {
|
|
if (pl)
|
|
error("illegal ellipsis terminator");
|
|
else error("ellipsis terminator in previous (prototype) declaration");
|
|
prot->pl_flag |= PL_ERRGIVEN;
|
|
}
|
|
return 0;
|
|
}
|
|
while (prot) {
|
|
/* if (!(prot->pl_flag & PL_ELLIPSIS)) {} */
|
|
fund = prot->pl_type->tp_fund;
|
|
if (fund == CHAR || fund == SHORT || fund == FLOAT) {
|
|
if (!(prot->pl_flag & PL_ERRGIVEN))
|
|
error("illegal %s parameter in %sdeclaration",
|
|
symbol2str(fund), (opl ? "previous (prototype) " : "" ));
|
|
prot->pl_flag |= PL_ERRGIVEN;
|
|
retval = 0;
|
|
}
|
|
prot = prot->next;
|
|
}
|
|
return retval;
|
|
}
|
|
|
|
equal_proto(pl, opl)
|
|
register struct proto *pl, *opl;
|
|
{
|
|
if (pl == opl)
|
|
return 1;
|
|
|
|
/* If only one type is a function type with a parameter type list
|
|
(a function prototype), the composite type is a function
|
|
prototype with parameter type list.
|
|
*/
|
|
while ( pl && opl) {
|
|
|
|
if ((pl->pl_flag & ~PL_ERRGIVEN) != (opl->pl_flag & ~PL_ERRGIVEN) ||
|
|
!equal_type(pl->pl_type, opl->pl_type, -1))
|
|
return 0;
|
|
|
|
pl = pl->next;
|
|
opl = opl->next;
|
|
}
|
|
return !(pl || opl);
|
|
}
|
|
|
|
/* check if a type has a consqualified member */
|
|
recurqual(tp, qual)
|
|
struct type *tp;
|
|
int qual;
|
|
{
|
|
register struct sdef *sdf;
|
|
|
|
ASSERT(tp);
|
|
|
|
if (tp->tp_typequal & qual) return 1;
|
|
switch(tp->tp_fund) {
|
|
case UNION:
|
|
case STRUCT:
|
|
case ENUM:
|
|
sdf = tp->tp_sdef;
|
|
while (sdf) {
|
|
if (recurqual(sdf->sd_type, qual))
|
|
return 1;
|
|
sdf = sdf->sd_sdef;
|
|
}
|
|
break;
|
|
}
|
|
return 0;
|
|
}
|
|
|
|
ch3asgn(expp, oper, expr)
|
|
struct expr **expp;
|
|
struct expr *expr;
|
|
{
|
|
/* The assignment operators.
|
|
"f op= e" should be interpreted as
|
|
"f = (typeof f)((typeof (f op e))f op (typeof (f op e))e)"
|
|
and not as "f = f op (typeof f)e".
|
|
Consider, for example, (i == 10) i *= 0.9; (i == 9), where
|
|
typeof i == int.
|
|
The resulting expression tree becomes:
|
|
op=
|
|
/ \
|
|
/ \
|
|
f (typeof (f op e))e
|
|
EVAL should however take care of evaluating (typeof (f op e))f
|
|
*/
|
|
register struct expr *exp = *expp;
|
|
int fund = exp->ex_type->tp_fund;
|
|
struct type *tp;
|
|
char *oper_string = symbol2str(oper);
|
|
|
|
/* We expect an lvalue */
|
|
if (fund == ARRAY || fund == FUNCTION) exp->ex_lvalue = 0;
|
|
if (!exp->ex_lvalue) {
|
|
expr_error(exp, "no lvalue in operand of %s", oper_string);
|
|
} else if (exp->ex_flags & EX_ILVALUE) {
|
|
expr_strict(exp, "incorrect lvalue in operand of %s", oper_string);
|
|
} else if (exp->ex_flags & EX_READONLY) {
|
|
expr_error(exp, "operand of %s is read-only", oper_string);
|
|
} else if (fund == STRUCT || fund == UNION) {
|
|
if (recurqual(exp->ex_type, TQ_CONST))
|
|
expr_error(exp,"operand of %s contains a const-qualified member",
|
|
oper_string);
|
|
}
|
|
|
|
if (oper == '=') {
|
|
ch3cast(&expr, oper, exp->ex_type);
|
|
tp = expr->ex_type;
|
|
}
|
|
else { /* turn e into e' where typeof(e') = typeof (f op e) */
|
|
struct expr *extmp = intexpr((arith)0, INT);
|
|
|
|
/* this is really $#@&*%$# ! */
|
|
/* if you correct this, please correct lint_new_oper() too */
|
|
extmp->ex_lvalue = 1;
|
|
extmp->ex_type = exp->ex_type;
|
|
ch3bin(&extmp, oper, expr);
|
|
/* Note that ch3bin creates a tree of the expression
|
|
((typeof (f op e))f op (typeof (f op e))e),
|
|
where f ~ extmp and e ~ expr.
|
|
We want to use (typeof (f op e))e.
|
|
Ch3bin does not create a tree if both operands
|
|
were illegal or constants!
|
|
*/
|
|
tp = extmp->ex_type; /* perform the arithmetic in type tp */
|
|
if (extmp->ex_class == Oper) {
|
|
expr = extmp->OP_RIGHT;
|
|
extmp->OP_RIGHT = NILEXPR;
|
|
free_expression(extmp);
|
|
}
|
|
else
|
|
expr = extmp;
|
|
}
|
|
#ifndef NOBITFIELD
|
|
exp = new_oper(fund == FIELD ? exp->ex_type->tp_up : exp->ex_type,
|
|
exp, oper, expr);
|
|
#else NOBITFIELD
|
|
exp = new_oper(exp->ex_type, exp, oper, expr);
|
|
#endif NOBITFIELD
|
|
exp->OP_TYPE = tp; /* for EVAL() */
|
|
exp->ex_flags |= EX_SIDEEFFECTS;
|
|
*expp = exp;
|
|
}
|
|
|
|
/* Some interesting (?) questions answered.
|
|
*/
|
|
int
|
|
is_integral_type(tp)
|
|
register struct type *tp;
|
|
{
|
|
switch (tp->tp_fund) {
|
|
case CHAR:
|
|
case SHORT:
|
|
case INT:
|
|
case LONG:
|
|
case ENUM:
|
|
return 1;
|
|
#ifndef NOBITFIELD
|
|
case FIELD:
|
|
return is_integral_type(tp->tp_up);
|
|
#endif NOBITFIELD
|
|
default:
|
|
return 0;
|
|
}
|
|
}
|
|
|
|
int
|
|
is_arith_type(tp)
|
|
register struct type *tp;
|
|
{
|
|
switch (tp->tp_fund) {
|
|
case CHAR:
|
|
case SHORT:
|
|
case INT:
|
|
case LONG:
|
|
case ENUM:
|
|
case FLOAT:
|
|
case DOUBLE:
|
|
case LNGDBL:
|
|
return 1;
|
|
#ifndef NOBITFIELD
|
|
case FIELD:
|
|
return is_arith_type(tp->tp_up);
|
|
#endif NOBITFIELD
|
|
default:
|
|
return 0;
|
|
}
|
|
}
|