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Make byte overflow detection for 8 bit immediate not fail with COM operator This is a horrible hack. Add a quick and dirty context to expression parsing so that it knows whether an 8 bit or 16 bit complement is required. The 8 bit complement will just discard anything above bit 7. When returning an operator back with lwasm_whichop(), the result will still be "COM" which should allow other things to keep working as they already do. This does prevent byte overflows when the complement operator is used, however, and since those were introduced, there were problems building Nitros9 among other things. This fix allows Nitros9 to build again.
author William Astle <lost@l-w.ca>
date Tue, 02 Jun 2015 20:58:14 -0600
parents 4130ffdeb5c8
children 8e25147c2aa8
line wrap: on
line source

/*
lwexpr.h

Copyright © 2010 William Astle

This file is part of LWTOOLS.

LWTOOLS is free software: you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation, either version 3 of the License, or (at your option) any later
version.

This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.

You should have received a copy of the GNU General Public License along with
this program. If not, see <http://www.gnu.org/licenses/>.
*/

#ifndef ___lw_expr_h_seen___
#define ___lw_expr_h_seen___

#include <stdio.h>

#ifdef _MSC_VER
#include "lw_win.h"	// windows build
#endif

enum
{
	lw_expr_type_oper,			// operator term
	lw_expr_type_int,			// integer
	lw_expr_type_var,			// a "variable" (string for the name)
	lw_expr_type_special		// a "special" reference (user defined)
};

enum
{
	lw_expr_oper_plus = 1,		// addition
	lw_expr_oper_minus,			// subtraction
	lw_expr_oper_times,			// multiplication
	lw_expr_oper_divide,		// division
	lw_expr_oper_mod,			// modulus
	lw_expr_oper_intdiv,		// integer division
	lw_expr_oper_bwand,			// bitwise and
	lw_expr_oper_bwor,			// bitwise or
	lw_expr_oper_bwxor,			// bitwise xor
	lw_expr_oper_and,			// boolean and
	lw_expr_oper_or,			// boolean or
	lw_expr_oper_neg,			// unary negation, 2's complement
	lw_expr_oper_com,			// unary 1's complement
	lw_expr_oper_com8,			// 8 bit complement
	lw_expr_oper_none = 0
};

#ifdef ___lw_expr_c_seen___

typedef struct lw_expr_priv * lw_expr_t;

struct lw_expr_opers
{
	lw_expr_t p;
	struct lw_expr_opers *next;
};

struct lw_expr_priv
{
	int type;							// type of term
	int value;							// integer value
	void *value2;						// misc pointer value
	struct lw_expr_opers *operands;		// ptr to list of operands (for operators)
};

typedef lw_expr_t lw_expr_fn_t(int t, void *ptr, void *priv);
typedef lw_expr_t lw_expr_fn2_t(char *var, void *priv);
typedef lw_expr_t lw_expr_fn3_t(char **p, void *priv);
typedef int lw_expr_testfn_t(lw_expr_t e, void *priv);

#else /* def ___lw_expr_c_seen___ */

typedef void * lw_expr_t;

extern lw_expr_t lwexpr_create(void);
extern void lw_expr_destroy(lw_expr_t E);
extern lw_expr_t lw_expr_copy(lw_expr_t E);
extern void lw_expr_add_operand(lw_expr_t E, lw_expr_t O);
extern lw_expr_t lw_expr_build(int exprtype, ...);
extern char *lw_expr_print(lw_expr_t E);
extern int lw_expr_compare(lw_expr_t E1, lw_expr_t E2);
extern void lw_expr_simplify(lw_expr_t E, void *priv);

typedef lw_expr_t lw_expr_fn_t(int t, void *ptr, void *priv);
typedef lw_expr_t lw_expr_fn2_t(char *var, void *priv);
typedef lw_expr_t lw_expr_fn3_t(char **p, void *priv);

extern void lw_expr_set_special_handler(lw_expr_fn_t *fn);
extern void lw_expr_set_var_handler(lw_expr_fn2_t *fn);
extern void lw_expr_set_term_parser(lw_expr_fn3_t *fn);

extern lw_expr_t lw_expr_parse(char **p, void *priv);
extern int lw_expr_istype(lw_expr_t e, int t);
extern int lw_expr_intval(lw_expr_t e);
extern int lw_expr_specint(lw_expr_t e);
extern void *lw_expr_specptr(lw_expr_t e);
extern int lw_expr_whichop(lw_expr_t e);

extern int lw_expr_type(lw_expr_t e);

typedef int lw_expr_testfn_t(lw_expr_t e, void *priv);

extern int lw_expr_operandcount(lw_expr_t e);

extern void lw_expr_setwidth(int w);

// run a function on all terms in an expression; if the function
// returns non-zero for any term, return non-zero, else return
// zero
extern int lw_expr_testterms(lw_expr_t e, lw_expr_testfn_t *fn, void *priv);

extern void lw_expr_setdivzero(void (*fn)(void *priv));

#endif /* def ___lw_expr_c_seen___ */

#endif /* ___lw_expr_h_seen___ */