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diff old-trunk/lwasm/old/lwval.h @ 339:eb230fa7d28e
Prepare for migration to hg
| author | lost |
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| date | Fri, 19 Mar 2010 02:54:14 +0000 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/old-trunk/lwasm/old/lwval.h Fri Mar 19 02:54:14 2010 +0000 @@ -0,0 +1,113 @@ +/* +lwval.h +Copyright © 2008 William Astle + +This file is part of LWASM. + +LWASM 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/>. +*/ + +/* +This file contains definitions associated with the expression evaluator used +by LWASM. + +The core of the entire expression handler is the opaque type LWVAL, pointers +to which are passed around to keep track of values. A value may be a simple +integer or it could be a more complex expression linked by operators or it +could be a polynomial expression. Simple integers are merely a degenerate +case of polynomials. + +The package understands the following operations: + +addition +subtraction +multiplication +division +modulus +parentheses +unary negation +unary "positive" +bitwise and +bitwise or +bitwise not (1's complement) +bitwise exclusive or + +Infix operators can be expressed as LWVAL <op> LWVAL. Thus, the order of +operations is only relevant when initially parsing the expression. The order +of evaluation is determined by what appears on either side of the <op> as +an LWVAL may be an expression. +*/ + +#ifndef __lwval_h_seen__ +#define __lwval_h_seen__ + +typedef struct lwval LWVAL; + +struct lwval_dt_expr +{ + LWVAL *v1; // first value + LWVAL *v2; // second value + int op; // operator +}; + +union lwval_dt +{ + int lwval_int; // integer type data + char *lwval_var; // pointer to variable name + struct lwval_dt_expr expr; // expression +}; + +enum +{ + LWVAL_TYPE_UNDEF, // undefined + LWVAL_TYPE_NAN, // not a number + LWVAL_TYPE_INT, // integer + LWVAL_TYPE_VAR, // variable (symbol) + LWVAL_TYPE_EXPR, // expression + LWVAL_TYPE_ERR // error +}; + +struct lwval +{ + int lwval_type; // data type + union lwval_dt dt; // type specific stuff +}; + +#ifndef __lwval_c_seen__ +#define __lwval_extern__ extern +#else +#define __lwval_extern__ +#endif + +__lwval_extern__ LWVAL *lwval_construct_int(int value); +__lwval_extern__ LWVAL *lwval_construct_err(int errno); +__lwval_extern__ LWVAL *lwval_construct_nan(void); +__lwval_extern__ LWVAL *lwval_construct_expr(LWVAL *v1, LWVAL *v2, int op); +__lwval_extern__ LWVAL *lwval_construct_undef(void); +__lwval_extern__ void lwval_clear(LWVAL *value); +__lwval_extern__ void lwval_destroy(LWVAL *value); +__lwval_extern__ void lwval_dup(LWVAL *v1, LWVAL *v2); + +// operators - operate on v1 and v2 in order, result goes into +// v1; return v1 +__lwval_extern__ LWVAL *lwval_add(LWVAL *v1, LWVAL *v2); +__lwval_extern__ LWVAL *lwval_sub(LWVAL *v1, LWVAL *v2); +__lwval_extern__ LWVAL *lwval_mul(LWVAL *v1, LWVAL *v2); +__lwval_extern__ LWVAL *lwval_div(LWVAL *v1, LWVAL *v2); +__lwval_extern__ LWVAL *lwval_mod(LWVAL *v1, LWVAL *v2); +__lwval_extern__ LWVAL *lwval_neg(LWVAL *v1); + +#undef __lwval_extern__ + +#endif //__lwval_h_seen__