mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-11 15:51:36 +00:00
397 lines
9.7 KiB
C
397 lines
9.7 KiB
C
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/*
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expr_assign.c
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assignment expression construction and manipulations
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Copyright (C) 2001 Bill Currie <bill@taniwha.org>
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Author: Bill Currie <bill@taniwha.org>
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Date: 2001/06/15
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to:
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Free Software Foundation, Inc.
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59 Temple Place - Suite 330
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Boston, MA 02111-1307, USA
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*/
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#ifdef HAVE_CONFIG_H
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# include "config.h"
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#endif
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#ifdef HAVE_STRING_H
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# include <string.h>
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#endif
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#ifdef HAVE_STRINGS_H
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# include <strings.h>
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#endif
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#include <stdlib.h>
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#include "QF/alloc.h"
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#include "QF/dstring.h"
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#include "QF/mathlib.h"
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#include "QF/sys.h"
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#include "QF/va.h"
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#include "qfcc.h"
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#include "class.h"
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#include "def.h"
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#include "defspace.h"
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#include "diagnostic.h"
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#include "emit.h"
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#include "expr.h"
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#include "function.h"
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#include "idstuff.h"
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#include "method.h"
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#include "options.h"
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#include "reloc.h"
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#include "shared.h"
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#include "strpool.h"
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#include "struct.h"
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#include "symtab.h"
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#include "type.h"
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#include "value.h"
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#include "qc-parse.h"
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static expr_t *
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check_assign_logic_precedence (expr_t *dst, expr_t *src)
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{
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if (src->type == ex_expr && !src->paren && is_logic (src->e.expr.op)) {
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// traditional QuakeC gives = higher precedence than && and ||
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expr_t *assignment;
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notice (src, "precedence of `=' and `%s' inverted for "
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"traditional code", get_op_string (src->e.expr.op));
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// change {a = (b logic c)} to {(a = b) logic c}
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assignment = assign_expr (dst, src->e.expr.e1);
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assignment->paren = 1; // protect assignment from binary_expr
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return binary_expr (src->e.expr.op, assignment, src->e.expr.e2);
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}
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return 0;
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}
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static expr_t *
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check_valid_lvalue (expr_t *expr)
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{
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switch (expr->type) {
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case ex_symbol:
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switch (expr->e.symbol->sy_type) {
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case sy_var:
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return 0;
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case sy_const:
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break;
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case sy_type:
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break;
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case sy_expr:
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break;
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case sy_func:
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break;
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case sy_class:
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break;
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}
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break;
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case ex_temp:
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return 0;
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case ex_expr:
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if (expr->e.expr.op == '.') {
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return 0;
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}
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break;
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case ex_uexpr:
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if (expr->e.expr.op == '.') {
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return 0;
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}
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if (expr->e.expr.op == 'A') {
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return check_valid_lvalue (expr->e.expr.e1);
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}
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break;
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case ex_state:
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case ex_bool:
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case ex_label:
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case ex_labelref:
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case ex_block:
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case ex_vector:
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case ex_nil:
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case ex_value:
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case ex_error:
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break;
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}
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if (options.traditional) {
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warning (expr, "invalid lvalue in assignment");
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return 0;
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}
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return error (expr, "invalid lvalue in assignment");
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}
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static expr_t *
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check_types_compatible (expr_t *dst, expr_t *src)
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{
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type_t *dst_type = get_type (dst);
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type_t *src_type = get_type (src);
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if (type_assignable (dst_type, src_type)) {
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return 0;
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}
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// traditional qcc is a little sloppy
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if (!options.traditional) {
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return type_mismatch (dst, src, '=');
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}
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if (is_func (dst_type) && is_func (src_type)) {
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warning (dst, "assignment between disparate function types");
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return 0;
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}
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if (is_float (dst_type) && is_vector (src_type)) {
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warning (dst, "assignment of vector to float");
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src = field_expr (src, new_name_expr ("x"));
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return assign_expr (dst, src);
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}
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if (is_vector (dst_type) && is_float (src_type)) {
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warning (dst, "assignment of float to vector");
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dst = field_expr (dst, new_name_expr ("x"));
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return assign_expr (dst, src);
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}
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return type_mismatch (dst, src, '=');
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}
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static expr_t *
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assign_vector_expr (expr_t *dst, expr_t *src)
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{
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expr_t *dx, *sx;
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expr_t *dy, *sy;
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expr_t *dz, *sz;
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expr_t *dw, *sw;
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expr_t *ds, *ss;
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expr_t *dv, *sv;
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expr_t *block;
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if (src->type == ex_vector) {
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src = convert_vector (src);
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if (src->type != ex_vector) {
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// src was constant and thus converted
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return assign_expr (dst, src);
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}
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}
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if (src->type == ex_vector && dst->type != ex_vector) {
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if (src->e.vector.type == &type_vector) {
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// guaranteed to have three elements
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sx = src->e.vector.list;
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sy = sx->next;
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sz = sy->next;
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dx = field_expr (dst, new_name_expr ("x"));
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dy = field_expr (dst, new_name_expr ("y"));
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dz = field_expr (dst, new_name_expr ("z"));
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block = new_block_expr ();
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append_expr (block, assign_expr (dx, sx));
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append_expr (block, assign_expr (dy, sy));
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append_expr (block, assign_expr (dz, sz));
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block->e.block.result = dst;
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return block;
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}
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if (src->e.vector.type == &type_quaternion) {
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// guaranteed to have two or four elements
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if (src->e.vector.list->next->next) {
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// four vals: x, y, z, w
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sx = src->e.vector.list;
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sy = sx->next;
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sz = sy->next;
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sw = sz->next;
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dx = field_expr (dst, new_name_expr ("x"));
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dy = field_expr (dst, new_name_expr ("y"));
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dz = field_expr (dst, new_name_expr ("z"));
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dw = field_expr (dst, new_name_expr ("w"));
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block = new_block_expr ();
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append_expr (block, assign_expr (dx, sx));
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append_expr (block, assign_expr (dy, sy));
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append_expr (block, assign_expr (dz, sz));
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append_expr (block, assign_expr (dw, sw));
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block->e.block.result = dst;
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return block;
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} else {
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// v, s
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sv = src->e.vector.list;
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ss = sv->next;
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dv = field_expr (dst, new_name_expr ("v"));
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ds = field_expr (dst, new_name_expr ("s"));
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block = new_block_expr ();
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append_expr (block, assign_expr (dv, sv));
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append_expr (block, assign_expr (ds, ss));
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block->e.block.result = dst;
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return block;
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}
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}
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internal_error (src, "bogus vector expression");
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}
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return 0;
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}
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static __attribute__((pure)) int
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is_const_ptr (expr_t *e)
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{
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if ((e->type != ex_value || e->e.value->lltype != ev_pointer)
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|| !(POINTER_VAL (e->e.value->v.pointer) > 0
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&& POINTER_VAL (e->e.value->v.pointer) < 65536)) {
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return 1;
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}
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return 0;
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}
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static __attribute__((pure)) int
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is_indirect (expr_t *e)
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{
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if (e->type == ex_block && e->e.block.result)
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return is_indirect (e->e.block.result);
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if (e->type == ex_expr && e->e.expr.op == '.')
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return 1;
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if (!(e->type == ex_uexpr && e->e.expr.op == '.'))
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return 0;
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return is_const_ptr (e->e.expr.e1);
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}
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expr_t *
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aassign_expr (expr_t *dst, expr_t *src);
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expr_t *
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assign_expr (expr_t *dst, expr_t *src)
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{
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int op = '=';
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expr_t *expr;
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type_t *dst_type, *src_type;
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convert_name (dst);
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convert_name (src);
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if (dst->type == ex_error) {
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return dst;
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}
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if (src->type == ex_error) {
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return src;
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}
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if (options.traditional
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&& (expr = check_assign_logic_precedence (dst, src))) {
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return expr;
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}
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dst = fold_constants (dst);
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src = fold_constants (src);
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if ((expr = check_valid_lvalue (dst))) {
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return expr;
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}
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dst_type = get_type (dst);
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src_type = get_type (src);
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if (!dst_type) {
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internal_error (dst, "dst_type broke in assign_expr");
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}
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if (!src_type) {
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internal_error (src, "src_type broke in assign_expr");
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}
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if (is_pointer (dst_type) && is_array (src_type)) {
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// assigning an array to a pointer is the same as taking the address of
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// the array but using the type of the array elements
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src = address_expr (src, 0, src_type->t.fldptr.type);
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src_type = get_type (src);
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}
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if (src->type == ex_bool) {
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src = convert_from_bool (src, dst_type);
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if (src->type == ex_error) {
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return src;
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}
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src_type = get_type (src);
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}
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if (!is_void (dst_type) && src->type == ex_nil) {
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// nil is a type-agnostic 0
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// FIXME: assignment to compound types? error or memset?
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src_type = dst_type;
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convert_nil (src, src_type);
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}
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if ((expr = check_types_compatible (dst, src))) {
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// expr might be a valid expression, but if so, check_types_compatible
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// will take care of everything
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return expr;
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}
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if ((expr = assign_vector_expr (dst, src))) {
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return expr;
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}
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if (is_indirect (dst) && is_indirect (src)) {
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debug (dst, "here");
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if (is_struct (src_type)) {
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dst = address_expr (dst, 0, 0);
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src = address_expr (src, 0, 0);
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expr = new_move_expr (dst, src, src_type, 1);
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} else {
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expr_t *temp = new_temp_def_expr (dst_type);
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expr = new_block_expr ();
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append_expr (expr, assign_expr (temp, src));
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append_expr (expr, assign_expr (dst, temp));
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expr->e.block.result = temp;
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}
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return expr;
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} else if (is_indirect (dst)) {
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debug (dst, "here");
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if (is_struct (dst_type)) {
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dst = address_expr (dst, 0, 0);
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src = address_expr (src, 0, 0);
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return new_move_expr (dst, src, dst_type, 1);
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}
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if (dst->type == ex_expr) {
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if (get_type (dst->e.expr.e1) == &type_entity) {
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dst_type = dst->e.expr.type;
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dst->e.expr.type = pointer_type (dst_type);
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dst->e.expr.op = '&';
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}
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op = PAS;
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} else {
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if (is_const_ptr (dst->e.expr.e1)) {
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dst = dst->e.expr.e1;
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op = PAS;
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}
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}
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} else if (is_indirect (src)) {
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debug (dst, "here");
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if (is_struct (dst_type)) {
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dst = address_expr (dst, 0, 0);
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src = address_expr (src, 0, 0);
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src->rvalue = 1;
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return new_move_expr (dst, src, src_type, 1);
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}
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if (src->type == ex_uexpr) {
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expr = src->e.expr.e1;
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if (is_const_ptr (expr)) {
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if (expr->type == ex_expr && expr->e.expr.op == '&'
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&& expr->e.expr.type->type == ev_pointer
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&& !is_constant (expr)) {
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src = expr;
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src->e.expr.op = '.';
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src->e.expr.type = src_type;
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src->rvalue = 1;
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}
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}
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}
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}
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if (is_struct (dst_type)) {
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return new_move_expr (dst, src, dst_type, 0);
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}
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expr = new_binary_expr (op, dst, src);
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expr->e.expr.type = dst_type;
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return expr;
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}
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