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03dad22f8a
function old new delta shell_builtin_read - 1000 +1000 set_local_var_from_halves - 24 +24 setvar2 - 7 +7 ... popstring 140 134 -6 ash_main 1375 1368 -7 setvar 184 174 -10 arith_set_local_var 36 - -36 builtin_read 1096 185 -911 ------------------------------------------------------------------------------ (add/remove: 3/1 grow/shrink: 5/23 up/down: 1038/-1007) Total: 31 bytes Signed-off-by: Denys Vlasenko <vda.linux@googlemail.com>
701 lines
21 KiB
C
701 lines
21 KiB
C
/*
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* arithmetic code ripped out of ash shell for code sharing
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*
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* This code is derived from software contributed to Berkeley by
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* Kenneth Almquist.
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*
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* Original BSD copyright notice is retained at the end of this file.
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*
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* Copyright (c) 1989, 1991, 1993, 1994
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* The Regents of the University of California. All rights reserved.
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*
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* Copyright (c) 1997-2005 Herbert Xu <herbert@gondor.apana.org.au>
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* was re-ported from NetBSD and debianized.
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*
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* rewrite arith.y to micro stack based cryptic algorithm by
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* Copyright (c) 2001 Aaron Lehmann <aaronl@vitelus.com>
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*
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* Modified by Paul Mundt <lethal@linux-sh.org> (c) 2004 to support
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* dynamic variables.
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*
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* Modified by Vladimir Oleynik <dzo@simtreas.ru> (c) 2001-2005 to be
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* used in busybox and size optimizations,
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* rewrote arith (see notes to this), added locale support,
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* rewrote dynamic variables.
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*
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* Licensed under the GPL v2 or later, see the file LICENSE in this tarball.
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*/
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/* Copyright (c) 2001 Aaron Lehmann <aaronl@vitelus.com>
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Permission is hereby granted, free of charge, to any person obtaining
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a copy of this software and associated documentation files (the
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"Software"), to deal in the Software without restriction, including
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without limitation the rights to use, copy, modify, merge, publish,
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distribute, sublicense, and/or sell copies of the Software, and to
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permit persons to whom the Software is furnished to do so, subject to
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the following conditions:
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The above copyright notice and this permission notice shall be
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included in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
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CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
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TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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/* This is my infix parser/evaluator. It is optimized for size, intended
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* as a replacement for yacc-based parsers. However, it may well be faster
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* than a comparable parser written in yacc. The supported operators are
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* listed in #defines below. Parens, order of operations, and error handling
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* are supported. This code is thread safe. The exact expression format should
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* be that which POSIX specifies for shells. */
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/* The code uses a simple two-stack algorithm. See
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* http://www.onthenet.com.au/~grahamis/int2008/week02/lect02.html
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* for a detailed explanation of the infix-to-postfix algorithm on which
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* this is based (this code differs in that it applies operators immediately
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* to the stack instead of adding them to a queue to end up with an
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* expression). */
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/* To use the routine, call it with an expression string and error return
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* pointer */
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/*
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* Aug 24, 2001 Manuel Novoa III
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*
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* Reduced the generated code size by about 30% (i386) and fixed several bugs.
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*
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* 1) In arith_apply():
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* a) Cached values of *numptr and &(numptr[-1]).
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* b) Removed redundant test for zero denominator.
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*
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* 2) In arith():
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* a) Eliminated redundant code for processing operator tokens by moving
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* to a table-based implementation. Also folded handling of parens
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* into the table.
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* b) Combined all 3 loops which called arith_apply to reduce generated
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* code size at the cost of speed.
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*
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* 3) The following expressions were treated as valid by the original code:
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* 1() , 0! , 1 ( *3 ) .
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* These bugs have been fixed by internally enclosing the expression in
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* parens and then checking that all binary ops and right parens are
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* preceded by a valid expression (NUM_TOKEN).
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*
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* Note: It may be desirable to replace Aaron's test for whitespace with
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* ctype's isspace() if it is used by another busybox applet or if additional
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* whitespace chars should be considered. Look below the "#include"s for a
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* precompiler test.
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*/
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/*
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* Aug 26, 2001 Manuel Novoa III
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*
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* Return 0 for null expressions. Pointed out by Vladimir Oleynik.
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*
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* Merge in Aaron's comments previously posted to the busybox list,
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* modified slightly to take account of my changes to the code.
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*
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*/
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/*
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* (C) 2003 Vladimir Oleynik <dzo@simtreas.ru>
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*
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* - allow access to variable,
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* used recursive find value indirection (c=2*2; a="c"; $((a+=2)) produce 6)
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* - realize assign syntax (VAR=expr, +=, *= etc)
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* - realize exponentiation (** operator)
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* - realize comma separated - expr, expr
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* - realise ++expr --expr expr++ expr--
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* - realise expr ? expr : expr (but, second expr calculate always)
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* - allow hexadecimal and octal numbers
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* - was restored loses XOR operator
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* - remove one goto label, added three ;-)
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* - protect $((num num)) as true zero expr (Manuel`s error)
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* - always use special isspace(), see comment from bash ;-)
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*/
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#include "libbb.h"
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#include "math.h"
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#define a_e_h_t arith_eval_hooks_t
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#define lookupvar (math_hooks->lookupvar)
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#define setvar (math_hooks->setvar )
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#define endofname (math_hooks->endofname)
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#define arith_isspace(arithval) \
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(arithval == ' ' || arithval == '\n' || arithval == '\t')
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typedef unsigned char operator;
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/* An operator's token id is a bit of a bitfield. The lower 5 bits are the
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* precedence, and 3 high bits are an ID unique across operators of that
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* precedence. The ID portion is so that multiple operators can have the
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* same precedence, ensuring that the leftmost one is evaluated first.
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* Consider * and /. */
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#define tok_decl(prec,id) (((id)<<5)|(prec))
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#define PREC(op) ((op) & 0x1F)
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#define TOK_LPAREN tok_decl(0,0)
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#define TOK_COMMA tok_decl(1,0)
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#define TOK_ASSIGN tok_decl(2,0)
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#define TOK_AND_ASSIGN tok_decl(2,1)
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#define TOK_OR_ASSIGN tok_decl(2,2)
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#define TOK_XOR_ASSIGN tok_decl(2,3)
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#define TOK_PLUS_ASSIGN tok_decl(2,4)
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#define TOK_MINUS_ASSIGN tok_decl(2,5)
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#define TOK_LSHIFT_ASSIGN tok_decl(2,6)
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#define TOK_RSHIFT_ASSIGN tok_decl(2,7)
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#define TOK_MUL_ASSIGN tok_decl(3,0)
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#define TOK_DIV_ASSIGN tok_decl(3,1)
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#define TOK_REM_ASSIGN tok_decl(3,2)
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/* all assign is right associativity and precedence eq, but (7+3)<<5 > 256 */
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#define convert_prec_is_assing(prec) do { if (prec == 3) prec = 2; } while (0)
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/* conditional is right associativity too */
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#define TOK_CONDITIONAL tok_decl(4,0)
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#define TOK_CONDITIONAL_SEP tok_decl(4,1)
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#define TOK_OR tok_decl(5,0)
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#define TOK_AND tok_decl(6,0)
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#define TOK_BOR tok_decl(7,0)
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#define TOK_BXOR tok_decl(8,0)
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#define TOK_BAND tok_decl(9,0)
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#define TOK_EQ tok_decl(10,0)
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#define TOK_NE tok_decl(10,1)
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#define TOK_LT tok_decl(11,0)
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#define TOK_GT tok_decl(11,1)
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#define TOK_GE tok_decl(11,2)
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#define TOK_LE tok_decl(11,3)
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#define TOK_LSHIFT tok_decl(12,0)
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#define TOK_RSHIFT tok_decl(12,1)
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#define TOK_ADD tok_decl(13,0)
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#define TOK_SUB tok_decl(13,1)
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#define TOK_MUL tok_decl(14,0)
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#define TOK_DIV tok_decl(14,1)
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#define TOK_REM tok_decl(14,2)
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/* exponent is right associativity */
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#define TOK_EXPONENT tok_decl(15,1)
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/* For now unary operators. */
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#define UNARYPREC 16
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#define TOK_BNOT tok_decl(UNARYPREC,0)
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#define TOK_NOT tok_decl(UNARYPREC,1)
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#define TOK_UMINUS tok_decl(UNARYPREC+1,0)
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#define TOK_UPLUS tok_decl(UNARYPREC+1,1)
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#define PREC_PRE (UNARYPREC+2)
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#define TOK_PRE_INC tok_decl(PREC_PRE, 0)
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#define TOK_PRE_DEC tok_decl(PREC_PRE, 1)
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#define PREC_POST (UNARYPREC+3)
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#define TOK_POST_INC tok_decl(PREC_POST, 0)
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#define TOK_POST_DEC tok_decl(PREC_POST, 1)
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#define SPEC_PREC (UNARYPREC+4)
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#define TOK_NUM tok_decl(SPEC_PREC, 0)
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#define TOK_RPAREN tok_decl(SPEC_PREC, 1)
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#define NUMPTR (*numstackptr)
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static int
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tok_have_assign(operator op)
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{
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operator prec = PREC(op);
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convert_prec_is_assing(prec);
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return (prec == PREC(TOK_ASSIGN) ||
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prec == PREC_PRE || prec == PREC_POST);
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}
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static int
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is_right_associativity(operator prec)
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{
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return (prec == PREC(TOK_ASSIGN) || prec == PREC(TOK_EXPONENT)
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|| prec == PREC(TOK_CONDITIONAL));
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}
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typedef struct {
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arith_t val;
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arith_t contidional_second_val;
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char contidional_second_val_initialized;
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char *var; /* if NULL then is regular number,
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else is variable name */
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} v_n_t;
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typedef struct chk_var_recursive_looped_t {
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const char *var;
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struct chk_var_recursive_looped_t *next;
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} chk_var_recursive_looped_t;
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static chk_var_recursive_looped_t *prev_chk_var_recursive;
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static int
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arith_lookup_val(v_n_t *t, a_e_h_t *math_hooks)
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{
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if (t->var) {
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const char *p = lookupvar(t->var);
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if (p) {
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int errcode;
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/* recursive try as expression */
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chk_var_recursive_looped_t *cur;
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chk_var_recursive_looped_t cur_save;
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for (cur = prev_chk_var_recursive; cur; cur = cur->next) {
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if (strcmp(cur->var, t->var) == 0) {
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/* expression recursion loop detected */
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return -5;
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}
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}
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/* save current lookuped var name */
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cur = prev_chk_var_recursive;
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cur_save.var = t->var;
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cur_save.next = cur;
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prev_chk_var_recursive = &cur_save;
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t->val = arith (p, &errcode, math_hooks);
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/* restore previous ptr after recursiving */
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prev_chk_var_recursive = cur;
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return errcode;
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}
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/* allow undefined var as 0 */
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t->val = 0;
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}
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return 0;
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}
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/* "applying" a token means performing it on the top elements on the integer
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* stack. For a unary operator it will only change the top element, but a
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* binary operator will pop two arguments and push a result */
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static NOINLINE int
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arith_apply(operator op, v_n_t *numstack, v_n_t **numstackptr, a_e_h_t *math_hooks)
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{
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v_n_t *numptr_m1;
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arith_t numptr_val, rez;
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int ret_arith_lookup_val;
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/* There is no operator that can work without arguments */
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if (NUMPTR == numstack) goto err;
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numptr_m1 = NUMPTR - 1;
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/* check operand is var with noninteger value */
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ret_arith_lookup_val = arith_lookup_val(numptr_m1, math_hooks);
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if (ret_arith_lookup_val)
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return ret_arith_lookup_val;
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rez = numptr_m1->val;
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if (op == TOK_UMINUS)
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rez *= -1;
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else if (op == TOK_NOT)
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rez = !rez;
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else if (op == TOK_BNOT)
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rez = ~rez;
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else if (op == TOK_POST_INC || op == TOK_PRE_INC)
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rez++;
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else if (op == TOK_POST_DEC || op == TOK_PRE_DEC)
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rez--;
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else if (op != TOK_UPLUS) {
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/* Binary operators */
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/* check and binary operators need two arguments */
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if (numptr_m1 == numstack) goto err;
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/* ... and they pop one */
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--NUMPTR;
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numptr_val = rez;
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if (op == TOK_CONDITIONAL) {
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if (!numptr_m1->contidional_second_val_initialized) {
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/* protect $((expr1 ? expr2)) without ": expr" */
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goto err;
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}
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rez = numptr_m1->contidional_second_val;
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} else if (numptr_m1->contidional_second_val_initialized) {
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/* protect $((expr1 : expr2)) without "expr ? " */
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goto err;
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}
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numptr_m1 = NUMPTR - 1;
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if (op != TOK_ASSIGN) {
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/* check operand is var with noninteger value for not '=' */
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ret_arith_lookup_val = arith_lookup_val(numptr_m1, math_hooks);
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if (ret_arith_lookup_val)
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return ret_arith_lookup_val;
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}
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if (op == TOK_CONDITIONAL) {
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numptr_m1->contidional_second_val = rez;
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}
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rez = numptr_m1->val;
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if (op == TOK_BOR || op == TOK_OR_ASSIGN)
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rez |= numptr_val;
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else if (op == TOK_OR)
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rez = numptr_val || rez;
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else if (op == TOK_BAND || op == TOK_AND_ASSIGN)
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rez &= numptr_val;
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else if (op == TOK_BXOR || op == TOK_XOR_ASSIGN)
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rez ^= numptr_val;
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else if (op == TOK_AND)
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rez = rez && numptr_val;
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else if (op == TOK_EQ)
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rez = (rez == numptr_val);
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else if (op == TOK_NE)
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rez = (rez != numptr_val);
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else if (op == TOK_GE)
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rez = (rez >= numptr_val);
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else if (op == TOK_RSHIFT || op == TOK_RSHIFT_ASSIGN)
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rez >>= numptr_val;
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else if (op == TOK_LSHIFT || op == TOK_LSHIFT_ASSIGN)
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rez <<= numptr_val;
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else if (op == TOK_GT)
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rez = (rez > numptr_val);
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else if (op == TOK_LT)
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rez = (rez < numptr_val);
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else if (op == TOK_LE)
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rez = (rez <= numptr_val);
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else if (op == TOK_MUL || op == TOK_MUL_ASSIGN)
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rez *= numptr_val;
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else if (op == TOK_ADD || op == TOK_PLUS_ASSIGN)
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rez += numptr_val;
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else if (op == TOK_SUB || op == TOK_MINUS_ASSIGN)
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rez -= numptr_val;
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else if (op == TOK_ASSIGN || op == TOK_COMMA)
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rez = numptr_val;
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else if (op == TOK_CONDITIONAL_SEP) {
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if (numptr_m1 == numstack) {
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/* protect $((expr : expr)) without "expr ? " */
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goto err;
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}
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numptr_m1->contidional_second_val_initialized = op;
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numptr_m1->contidional_second_val = numptr_val;
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} else if (op == TOK_CONDITIONAL) {
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rez = rez ?
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numptr_val : numptr_m1->contidional_second_val;
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} else if (op == TOK_EXPONENT) {
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if (numptr_val < 0)
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return -3; /* exponent less than 0 */
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else {
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arith_t c = 1;
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if (numptr_val)
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while (numptr_val--)
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c *= rez;
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rez = c;
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}
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} else if (numptr_val==0) /* zero divisor check */
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return -2;
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else if (op == TOK_DIV || op == TOK_DIV_ASSIGN)
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rez /= numptr_val;
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else if (op == TOK_REM || op == TOK_REM_ASSIGN)
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rez %= numptr_val;
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}
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if (tok_have_assign(op)) {
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char buf[sizeof(arith_t)*3 + 2];
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if (numptr_m1->var == NULL) {
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/* Hmm, 1=2 ? */
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goto err;
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}
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/* save to shell variable */
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sprintf(buf, arith_t_fmt, rez);
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setvar(numptr_m1->var, buf);
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/* after saving, make previous value for v++ or v-- */
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if (op == TOK_POST_INC)
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rez--;
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else if (op == TOK_POST_DEC)
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rez++;
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}
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numptr_m1->val = rez;
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/* protect geting var value, is number now */
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numptr_m1->var = NULL;
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return 0;
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err:
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return -1;
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}
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/* longest must be first */
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static const char op_tokens[] ALIGN1 = {
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'<','<','=',0, TOK_LSHIFT_ASSIGN,
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'>','>','=',0, TOK_RSHIFT_ASSIGN,
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'<','<', 0, TOK_LSHIFT,
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'>','>', 0, TOK_RSHIFT,
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'|','|', 0, TOK_OR,
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'&','&', 0, TOK_AND,
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'!','=', 0, TOK_NE,
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'<','=', 0, TOK_LE,
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'>','=', 0, TOK_GE,
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'=','=', 0, TOK_EQ,
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'|','=', 0, TOK_OR_ASSIGN,
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'&','=', 0, TOK_AND_ASSIGN,
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'*','=', 0, TOK_MUL_ASSIGN,
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'/','=', 0, TOK_DIV_ASSIGN,
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'%','=', 0, TOK_REM_ASSIGN,
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'+','=', 0, TOK_PLUS_ASSIGN,
|
|
'-','=', 0, TOK_MINUS_ASSIGN,
|
|
'-','-', 0, TOK_POST_DEC,
|
|
'^','=', 0, TOK_XOR_ASSIGN,
|
|
'+','+', 0, TOK_POST_INC,
|
|
'*','*', 0, TOK_EXPONENT,
|
|
'!', 0, TOK_NOT,
|
|
'<', 0, TOK_LT,
|
|
'>', 0, TOK_GT,
|
|
'=', 0, TOK_ASSIGN,
|
|
'|', 0, TOK_BOR,
|
|
'&', 0, TOK_BAND,
|
|
'*', 0, TOK_MUL,
|
|
'/', 0, TOK_DIV,
|
|
'%', 0, TOK_REM,
|
|
'+', 0, TOK_ADD,
|
|
'-', 0, TOK_SUB,
|
|
'^', 0, TOK_BXOR,
|
|
/* uniq */
|
|
'~', 0, TOK_BNOT,
|
|
',', 0, TOK_COMMA,
|
|
'?', 0, TOK_CONDITIONAL,
|
|
':', 0, TOK_CONDITIONAL_SEP,
|
|
')', 0, TOK_RPAREN,
|
|
'(', 0, TOK_LPAREN,
|
|
0
|
|
};
|
|
/* ptr to ")" */
|
|
#define endexpression (&op_tokens[sizeof(op_tokens)-7])
|
|
|
|
arith_t
|
|
arith(const char *expr, int *perrcode, a_e_h_t *math_hooks)
|
|
{
|
|
char arithval; /* Current character under analysis */
|
|
operator lasttok, op;
|
|
operator prec;
|
|
operator *stack, *stackptr;
|
|
const char *p = endexpression;
|
|
int errcode;
|
|
v_n_t *numstack, *numstackptr;
|
|
unsigned datasizes = strlen(expr) + 2;
|
|
|
|
/* Stack of integers */
|
|
/* The proof that there can be no more than strlen(startbuf)/2+1 integers
|
|
* in any given correct or incorrect expression is left as an exercise to
|
|
* the reader. */
|
|
numstackptr = numstack = alloca((datasizes / 2) * sizeof(numstack[0]));
|
|
/* Stack of operator tokens */
|
|
stackptr = stack = alloca(datasizes * sizeof(stack[0]));
|
|
|
|
*stackptr++ = lasttok = TOK_LPAREN; /* start off with a left paren */
|
|
*perrcode = errcode = 0;
|
|
|
|
while (1) {
|
|
arithval = *expr;
|
|
if (arithval == 0) {
|
|
if (p == endexpression) {
|
|
/* Null expression. */
|
|
return 0;
|
|
}
|
|
|
|
/* This is only reached after all tokens have been extracted from the
|
|
* input stream. If there are still tokens on the operator stack, they
|
|
* are to be applied in order. At the end, there should be a final
|
|
* result on the integer stack */
|
|
|
|
if (expr != endexpression + 1) {
|
|
/* If we haven't done so already, */
|
|
/* append a closing right paren */
|
|
expr = endexpression;
|
|
/* and let the loop process it. */
|
|
continue;
|
|
}
|
|
/* At this point, we're done with the expression. */
|
|
if (numstackptr != numstack+1) {
|
|
/* ... but if there isn't, it's bad */
|
|
err:
|
|
*perrcode = -1;
|
|
return *perrcode;
|
|
}
|
|
if (numstack->var) {
|
|
/* expression is $((var)) only, lookup now */
|
|
errcode = arith_lookup_val(numstack, math_hooks);
|
|
}
|
|
ret:
|
|
*perrcode = errcode;
|
|
return numstack->val;
|
|
}
|
|
|
|
/* Continue processing the expression. */
|
|
if (arith_isspace(arithval)) {
|
|
/* Skip whitespace */
|
|
goto prologue;
|
|
}
|
|
p = endofname(expr);
|
|
if (p != expr) {
|
|
size_t var_name_size = (p-expr) + 1; /* trailing zero */
|
|
|
|
numstackptr->var = alloca(var_name_size);
|
|
safe_strncpy(numstackptr->var, expr, var_name_size);
|
|
expr = p;
|
|
num:
|
|
numstackptr->contidional_second_val_initialized = 0;
|
|
numstackptr++;
|
|
lasttok = TOK_NUM;
|
|
continue;
|
|
}
|
|
if (isdigit(arithval)) {
|
|
numstackptr->var = NULL;
|
|
errno = 0;
|
|
/* call strtoul[l]: */
|
|
numstackptr->val = strto_arith_t(expr, (char **) &expr, 0);
|
|
if (errno)
|
|
numstackptr->val = 0; /* bash compat */
|
|
goto num;
|
|
}
|
|
for (p = op_tokens; ; p++) {
|
|
const char *o;
|
|
|
|
if (*p == 0) {
|
|
/* strange operator not found */
|
|
goto err;
|
|
}
|
|
for (o = expr; *p && *o == *p; p++)
|
|
o++;
|
|
if (!*p) {
|
|
/* found */
|
|
expr = o - 1;
|
|
break;
|
|
}
|
|
/* skip tail uncompared token */
|
|
while (*p)
|
|
p++;
|
|
/* skip zero delim */
|
|
p++;
|
|
}
|
|
op = p[1];
|
|
|
|
/* post grammar: a++ reduce to num */
|
|
if (lasttok == TOK_POST_INC || lasttok == TOK_POST_DEC)
|
|
lasttok = TOK_NUM;
|
|
|
|
/* Plus and minus are binary (not unary) _only_ if the last
|
|
* token was a number, or a right paren (which pretends to be
|
|
* a number, since it evaluates to one). Think about it.
|
|
* It makes sense. */
|
|
if (lasttok != TOK_NUM) {
|
|
switch (op) {
|
|
case TOK_ADD:
|
|
op = TOK_UPLUS;
|
|
break;
|
|
case TOK_SUB:
|
|
op = TOK_UMINUS;
|
|
break;
|
|
case TOK_POST_INC:
|
|
op = TOK_PRE_INC;
|
|
break;
|
|
case TOK_POST_DEC:
|
|
op = TOK_PRE_DEC;
|
|
break;
|
|
}
|
|
}
|
|
/* We don't want an unary operator to cause recursive descent on the
|
|
* stack, because there can be many in a row and it could cause an
|
|
* operator to be evaluated before its argument is pushed onto the
|
|
* integer stack. */
|
|
/* But for binary operators, "apply" everything on the operator
|
|
* stack until we find an operator with a lesser priority than the
|
|
* one we have just extracted. */
|
|
/* Left paren is given the lowest priority so it will never be
|
|
* "applied" in this way.
|
|
* if associativity is right and priority eq, applied also skip
|
|
*/
|
|
prec = PREC(op);
|
|
if ((prec > 0 && prec < UNARYPREC) || prec == SPEC_PREC) {
|
|
/* not left paren or unary */
|
|
if (lasttok != TOK_NUM) {
|
|
/* binary op must be preceded by a num */
|
|
goto err;
|
|
}
|
|
while (stackptr != stack) {
|
|
if (op == TOK_RPAREN) {
|
|
/* The algorithm employed here is simple: while we don't
|
|
* hit an open paren nor the bottom of the stack, pop
|
|
* tokens and apply them */
|
|
if (stackptr[-1] == TOK_LPAREN) {
|
|
--stackptr;
|
|
/* Any operator directly after a */
|
|
lasttok = TOK_NUM;
|
|
/* close paren should consider itself binary */
|
|
goto prologue;
|
|
}
|
|
} else {
|
|
operator prev_prec = PREC(stackptr[-1]);
|
|
|
|
convert_prec_is_assing(prec);
|
|
convert_prec_is_assing(prev_prec);
|
|
if (prev_prec < prec)
|
|
break;
|
|
/* check right assoc */
|
|
if (prev_prec == prec && is_right_associativity(prec))
|
|
break;
|
|
}
|
|
errcode = arith_apply(*--stackptr, numstack, &numstackptr, math_hooks);
|
|
if (errcode) goto ret;
|
|
}
|
|
if (op == TOK_RPAREN) {
|
|
goto err;
|
|
}
|
|
}
|
|
|
|
/* Push this operator to the stack and remember it. */
|
|
*stackptr++ = lasttok = op;
|
|
prologue:
|
|
++expr;
|
|
} /* while */
|
|
}
|
|
|
|
/*
|
|
* Copyright (c) 1989, 1991, 1993, 1994
|
|
* The Regents of the University of California. All rights reserved.
|
|
*
|
|
* This code is derived from software contributed to Berkeley by
|
|
* Kenneth Almquist.
|
|
*
|
|
* Redistribution and use in source and binary forms, with or without
|
|
* modification, are permitted provided that the following conditions
|
|
* are met:
|
|
* 1. Redistributions of source code must retain the above copyright
|
|
* notice, this list of conditions and the following disclaimer.
|
|
* 2. Redistributions in binary form must reproduce the above copyright
|
|
* notice, this list of conditions and the following disclaimer in the
|
|
* documentation and/or other materials provided with the distribution.
|
|
* 3. Neither the name of the University nor the names of its contributors
|
|
* may be used to endorse or promote products derived from this software
|
|
* without specific prior written permission.
|
|
*
|
|
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
|
|
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
|
|
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
|
|
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
|
|
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
|
|
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
|
|
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
|
|
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
|
|
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
|
|
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
|
|
* SUCH DAMAGE.
|
|
*/
|