mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-26 22:31:05 +00:00
0dab26ce8f
If the result object type pointer is null, then the parsed result type and value pointers are written directly to the result object rather than testing the parsed result type against the object type and copying the parsed result value data to the location of the object value. It is then up to the caller to check the type and copy the value data.
434 lines
11 KiB
Text
434 lines
11 KiB
Text
/*
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cexpr-parse.y
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Config expression parser. Or concurrent.
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Copyright (C) 2020 Bill Currie <bill@taniwha.org>
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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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%define api.prefix {cexpr_yy}
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%define api.pure full
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%define api.push-pull push
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%define parse.trace
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%parse-param {void *scanner} {exprctx_t *context}
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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 <stdio.h>
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#include "QF/cmem.h"
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#include "QF/dstring.h"
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#include "QF/hash.h"
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#include "QF/plist.h"
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#include "QF/sys.h"
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#include "QF/cexpr.h"
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static exprval_t *binary_expr (int op, const exprval_t *a, const exprval_t *b,
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exprctx_t *context);
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static exprval_t *field_expr (const exprval_t *a, const exprval_t *b,
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exprctx_t *context);
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static exprval_t *index_expr (const exprval_t *a, const exprval_t *b,
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exprctx_t *context);
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static exprval_t *unary_expr (int op, const exprval_t *val,
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exprctx_t *context);
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static exprval_t *vector_expr (exprlist_t *list, exprctx_t *context);
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static exprval_t *function_expr (exprsym_t *fsym, exprlist_t *list,
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exprctx_t *context);
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static exprlist_t *expr_item (exprval_t *val, exprctx_t *context);
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static void
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yyerror (void *scanner, exprctx_t *context, const char *s)
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{
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cexpr_error (context, "%s before %s", s, cexpr_yyget_text (scanner));
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}
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%}
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%left COMMA
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%right <op> '=' ASX
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%right '?' ':'
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%left OR
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%left AND
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%left '|'
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%left '^'
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%left '&'
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%left EQ NE
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%left LE GE LT GT
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%left SHL SHR
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%left '+' '-'
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%left '*' '/' '%' MOD
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%right <op> SIZEOF UNARY INCOP
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%left HYPERUNARY
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%left '.' '(' '['
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%token <symbol> NAME
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%token <value> VALUE
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%type <value> expr field uexpr
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%type <list> opt_arg_list arg_list arg_expr
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%union {
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int op;
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exprsym_t *symbol;
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exprval_t *value;
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exprlist_t *list;
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const char *string;
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}
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%%
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start
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: expr { cexpr_assign_value (context->result, $1, context); }
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;
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uexpr
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: NAME
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{
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if ($1) {
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$$ = (exprval_t *) cmemalloc (context->memsuper, sizeof (*$$));
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$$->type = $1->type;
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$$->value = $1->value;
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} else {
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cexpr_error (context, "undefined identifier %s",
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cexpr_yyget_text (scanner));
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}
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}
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| VALUE
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| '[' arg_list ']' { $$ = vector_expr ($2, context); }
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| '(' expr ')' { $$ = $2; }
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| NAME '(' opt_arg_list ')' { $$ = function_expr ($1, $3, context); }
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| uexpr '.' field { $$ = field_expr ($1, $3, context); }
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| uexpr '[' expr ']' { $$ = index_expr ($1, $3, context); }
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| '+' uexpr %prec UNARY { $$ = $2; }
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| '-' uexpr %prec UNARY { $$ = unary_expr ('-', $2, context); }
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| '!' uexpr %prec UNARY { $$ = unary_expr ('!', $2, context); }
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| '~' uexpr %prec UNARY { $$ = unary_expr ('~', $2, context); }
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;
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expr
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: uexpr
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| expr '=' expr { $$ = cexpr_assign_value ($1, $3, context); }
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| expr SHL expr { $$ = binary_expr (SHL, $1, $3, context); }
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| expr SHR expr { $$ = binary_expr (SHR, $1, $3, context); }
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| expr '+' expr { $$ = binary_expr ('+', $1, $3, context); }
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| expr '-' expr { $$ = binary_expr ('-', $1, $3, context); }
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| expr '*' expr { $$ = binary_expr ('*', $1, $3, context); }
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| expr '/' expr { $$ = binary_expr ('/', $1, $3, context); }
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| expr '&' expr { $$ = binary_expr ('&', $1, $3, context); }
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| expr '|' expr { $$ = binary_expr ('|', $1, $3, context); }
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| expr '^' expr { $$ = binary_expr ('^', $1, $3, context); }
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| expr '%' expr { $$ = binary_expr ('%', $1, $3, context); }
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| expr MOD expr { $$ = binary_expr (MOD, $1, $3, context); }
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;
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field
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: NAME
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{
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exprctx_t *ctx = context;
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const char *name = cexpr_yyget_text (scanner);
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size_t size = strlen (name) + 1;
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//FIXME reuse strings
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$$ = (exprval_t *) cmemalloc (ctx->memsuper, sizeof (exprval_t));
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$$->type = &cexpr_field;
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$$->value = cmemalloc (ctx->memsuper, size);
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memcpy ($$->value, name, size);
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}
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;
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opt_arg_list
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: { $$ = 0; }
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| arg_list { $$ = $1; }
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;
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arg_list
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: arg_expr
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| arg_list ',' arg_expr
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{
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$3-> next = $1;
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$$ = $3;
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}
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arg_expr
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: expr { $$ = expr_item ($1, context); }
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;
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%%
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exprval_t *
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cexpr_assign_value (exprval_t *dst, const exprval_t *src, exprctx_t *context)
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{
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binop_t *binop = 0;
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if (!dst || !src) {
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return 0;
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}
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if (dst->type == &cexpr_exprval) {
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*(exprval_t **) dst->value = (exprval_t *) src;
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return dst;
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}
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if (dst->type) {
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binop = cexpr_find_cast (dst->type, src->type);
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}
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if (binop && binop->op) {
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binop->func (dst, src, dst, context);
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} else {
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if (!dst->type) {
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dst->type = src->type;
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dst->value = src->value;
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} else {
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if (dst->type != src->type) {
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cexpr_error (context,
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"type mismatch in expression result: %s = %s",
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dst->type->name, src->type->name);
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return dst;
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}
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memcpy (dst->value, src->value, dst->type->size);
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}
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}
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return dst;
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}
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static exprval_t *
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binary_expr (int op, const exprval_t *a, const exprval_t *b,
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exprctx_t *context)
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{
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binop_t *binop;
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for (binop = a->type->binops; binop->op; binop++) {
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exprtype_t *otype = binop->other;
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if (!otype) {
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otype = a->type;
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}
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if (binop->op == op && otype == b->type) {
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break;
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}
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}
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exprtype_t *rtype = binop->result;
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if (!rtype) {
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rtype = a->type;
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}
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exprval_t *result = cexpr_value (rtype, context);
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if (!binop->op) {
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cexpr_error (context, "invalid binary expression: %s %c %s",
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a->type->name, op, b->type->name);
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memset (result->value, 0, rtype->size);
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} else {
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binop->func (a, b, result, context);
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}
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return result;
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}
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static exprval_t *
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field_expr (const exprval_t *a, const exprval_t *b, exprctx_t *context)
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{
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binop_t *binop;
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exprval_t *result = 0;
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if (!a) {
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return 0;
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}
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for (binop = a->type->binops; binop->op; binop++) {
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if (binop->op == '.' && binop->other == b->type) {
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break;
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}
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}
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if (!binop->op) {
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cexpr_error (context, "invalid binary expression: %s.%s",
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a->type->name, b->type->name);
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result = cexpr_value (&cexpr_int, context);
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*(int *) result->value = 0;
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} else {
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exprval_t c = { 0, &result };
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binop->func (a, b, &c, context);
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}
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return result;
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}
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static exprval_t *
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index_expr (const exprval_t *a, const exprval_t *b, exprctx_t *context)
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{
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binop_t *binop;
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exprval_t *result = 0;
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if (!a || !b) {
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return 0;
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}
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for (binop = a->type->binops; binop->op; binop++) {
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if (binop->op == '[' && binop->other == b->type) {
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break;
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}
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}
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if (!binop->op) {
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cexpr_error (context, "invalid index expression: %s.%s",
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a->type->name, b->type->name);
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result = cexpr_value (&cexpr_int, context);
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*(int *) result->value = 0;
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} else {
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exprval_t c = { 0, &result };
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binop->func (a, b, &c, context);
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}
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return result;
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}
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static exprval_t *
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unary_expr (int op, const exprval_t *val, exprctx_t *context)
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{
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unop_t *unop;
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for (unop = val->type->unops; unop->op; unop++) {
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if (unop->op == op) {
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break;
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}
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}
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exprtype_t *rtype = unop->result;
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if (!rtype) {
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rtype = val->type;
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}
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exprval_t *result = cexpr_value (rtype, context);
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if (!unop->op) {
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cexpr_error (context, "invalid unary expression: %c %s",
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op, val->type->name);
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} else {
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unop->func (val, result, context);
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}
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return result;
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}
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exprval_t *
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vector_expr (exprlist_t *list, exprctx_t *context)
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{
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exprlist_t *l;
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exprval_t *val = cexpr_value (&cexpr_vector, context);
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float *vector = val->value;
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int i;
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exprlist_t *rlist = 0;
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// list is built in reverse order, so need to reverse it to make converting
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// to an array easier
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while (list) {
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exprlist_t *t = list->next;
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list->next = rlist;
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rlist = list;
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list = t;
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}
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list = rlist;
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for (i = 0; i < 4 && list; i++, list = l) {
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exprval_t dst = { &cexpr_float, &vector[i] };
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exprval_t *src = list->value;
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binop_t *cast = cexpr_find_cast (&cexpr_float, src->type);
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if (cast) {
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cast->func (&dst, src, &dst, context);
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} else {
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cexpr_error (context, "invalid vector expression type: [%d] %s",
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i, val->type->name);
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}
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l = list->next;
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cmemfree (context->memsuper, list);
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}
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if (i == 4 && list) {
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cexpr_error (context, "excess elements in vector expression");
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}
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for ( ; i < 4; i++) {
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vector[i] = 0;
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}
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return val;
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}
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static exprval_t *function_expr (exprsym_t *fsym, exprlist_t *list,
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exprctx_t *context)
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{
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exprlist_t *l;
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int num_args = 1;// one extra for terminating null
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exprfunc_t *func = 0;
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exprval_t *result;
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for (l = list; l; l = l->next) {
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num_args++;
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}
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__auto_type args = (const exprval_t **) alloca (num_args * sizeof (exprval_t *));
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args[num_args - 1] = 0; // terminate array of args for varargs functions
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__auto_type types = (exprtype_t **) alloca (num_args * sizeof (exprtype_t *));
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for (num_args = 0; list; list = l, num_args++) {
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args[num_args] = list->value;
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types[num_args] = list->value->type;
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l = list->next;
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cmemfree (context->memsuper, list);
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}
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if (fsym->type != &cexpr_function) {
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cexpr_error (context, "invalid function %s", fsym->name);
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result = cexpr_value (&cexpr_int, context);
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*(int *) result->value = 0;
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return result;
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}
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for (exprfunc_t *f = fsym->value; f->result; f++) {
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int num_params = f->num_params;
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if (num_params >= 0 && num_args == num_params) {
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} else if (num_params < 0 && num_args >= ~num_params) {
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num_params = ~num_params;
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} else {
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continue;
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}
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if (!num_params
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|| memcmp (f->param_types, types,
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num_args * sizeof (exprtype_t *)) == 0) {
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func = f;
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break;
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}
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}
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if (!func) {
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dstring_t *argstr = dstring_newstr();
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for (int i = 0; i < num_args; i++) {
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dasprintf (argstr, "%s%s", types[i]->name,
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i + 1 < num_args ? ", ": "");
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}
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cexpr_error (context, "no overload for %s(%s)", fsym->name,
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argstr->str);
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dstring_delete (argstr);
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result = cexpr_value (&cexpr_int, context);
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*(int *) result->value = 0;
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return result;
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}
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result = cexpr_value (func->result, context);
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func->func (args, result, context);
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return result;
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}
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static exprlist_t *
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expr_item (exprval_t *val, exprctx_t *context)
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{
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__auto_type item = (exprlist_t *) cmemalloc (context->memsuper,
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sizeof (exprlist_t));
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item->next = 0;
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item->value = val;
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return item;
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}
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