mirror of
https://github.com/ctm/syn68k.git
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413 lines
10 KiB
C
413 lines
10 KiB
C
/*
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* boolean.c
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include "token.h"
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#include "boolean.h"
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#include "error.h"
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static BoolExpr *create_bool_expr (BoolExprType type, BoolExpr *subexpr);
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typedef BoolExpr * (BoolOpHandler)(const List *);
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static BoolOpHandler BO_equal, BO_greater_than, BO_less_than, BO_not_equal,
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BO_gr_or_equal, BO_less_or_equal,
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BO_not, BO_and, BO_or, BO_xor;
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typedef struct {
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TokenType type;
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BoolOpHandler *func;
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} BoolDispatchEntry;
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static BoolExpr true_bool_expr = { E_TRUE, NULL, NULL },
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false_bool_expr = { E_FALSE, NULL, NULL };
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BoolExpr *
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make_boolean_expr (const List *ls)
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{
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char buf[128];
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int i;
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static const BoolDispatchEntry boolop[] = {
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{ TOK_EQUAL, BO_equal },
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{ TOK_GREATER_THAN, BO_greater_than },
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{ TOK_LESS_THAN, BO_less_than },
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{ TOK_LESS_OR_EQUAL, BO_less_or_equal },
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{ TOK_GREATER_OR_EQUAL, BO_gr_or_equal },
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{ TOK_NOT_EQUAL, BO_not_equal },
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{ TOK_NOT, BO_not },
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{ TOK_AND, BO_and },
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{ TOK_OR, BO_or },
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{ TOK_XOR, BO_xor } };
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if (ls == NULL)
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parse_error(ls, "Invalid boolean expression.\n");
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else if (ls->car == NULL)
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{
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switch (ls->token.type) {
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case TOK_TRUE:
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return &true_bool_expr;
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case TOK_FALSE:
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case TOK_NIL:
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return &false_bool_expr;
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default:
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break;
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}
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parse_error (ls, "Unknown boolean expression \"%s\".\n",
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unparse_token (&ls->token, buf));
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}
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else
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{
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for (i = (sizeof boolop / sizeof boolop[0]) - 1; i >= 0; i--)
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if (boolop[i].type == ls->car->token.type)
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return boolop[i].func (ls->car);
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parse_error (ls, "Unknown boolean operator: \"%s\"\n",
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unparse_token (&ls->car->token, buf));
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}
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return &false_bool_expr; /* Default to FALSE, keep compiling */
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}
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/* = This can either compare two numerical expressions or two strings */
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static BoolExpr *
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BO_equal (const List *ls)
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{
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if (ls->cdr == NULL || CDDR (ls) == NULL || CDDDR (ls) != NULL)
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{
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parse_error (ls, "= takes two arguments.\n");
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return &false_bool_expr; /* default = FALSE */
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}
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return tokens_equal (&ls->cdr->token, &(CDDR (ls))->token)
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? &true_bool_expr : &false_bool_expr;
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}
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/* <> This can either compare two numerical expressions or two strings */
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static BoolExpr *
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BO_not_equal(const List *ls)
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{
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if (ls->cdr == NULL || ls->cdr->cdr == NULL || CDDDR (ls) != NULL)
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{
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parse_error (ls, "<> takes two arguments.\n");
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return &false_bool_expr; /* default = FALSE */
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}
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return !tokens_equal (&ls->cdr->token, &(CDDR (ls))->token)
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? &true_bool_expr : &false_bool_expr;
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}
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/* > Valid only for numerical expressions */
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static BoolExpr *
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BO_greater_than (const List *ls)
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{
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if (ls->cdr == NULL || ls->cdr->cdr == NULL || CDDDR (ls) != NULL)
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{
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parse_error (ls, "> takes two arguments.\n");
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return &false_bool_expr; /* default = FALSE */
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}
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if (ls->cdr->token.type != TOK_NUMBER || CDDR (ls)->token.type != TOK_NUMBER)
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{
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parse_error (ls,"> can only be used to compare numerical quantities!\n");
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return &false_bool_expr; /* default = FALSE */
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}
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return (ls->cdr->token.u.n > CDDR (ls)->token.u.n)
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? &true_bool_expr : &false_bool_expr;
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}
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/* < Valid only for numerical expressions */
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static BoolExpr *
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BO_less_than (const List *ls)
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{
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if (ls->cdr == NULL || ls->cdr->cdr == NULL || CDDDR (ls) != NULL)
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{
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parse_error (ls, "< takes two arguments.\n");
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return &false_bool_expr; /* default = FALSE */
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}
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if (ls->cdr->token.type != TOK_NUMBER || CDDR (ls)->token.type != TOK_NUMBER)
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{
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parse_error (ls,"< can only be used to compare numerical quantities!\n");
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return &false_bool_expr; /* default = FALSE */
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}
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return (ls->cdr->token.u.n < CDDR (ls)->token.u.n)
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? &true_bool_expr : &false_bool_expr;
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}
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/* >= Valid only for numerical expressions */
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static BoolExpr *
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BO_gr_or_equal (const List *ls)
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{
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if (ls->cdr == NULL || ls->cdr->cdr == NULL || CDDDR (ls) != NULL)
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{
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parse_error (ls, ">= takes two arguments.\n");
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return &false_bool_expr; /* default = FALSE */
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}
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if (ls->cdr->token.type != TOK_NUMBER || CDDR (ls)->token.type != TOK_NUMBER)
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{
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parse_error (ls,
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">= can only be used to compare numerical quantities!\n");
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return &false_bool_expr; /* default = FALSE */
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}
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return (ls->cdr->token.u.n >= CDDR (ls)->token.u.n)
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? &true_bool_expr : &false_bool_expr;
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}
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/* <= Valid only for numerical expressions */
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static BoolExpr *
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BO_less_or_equal (const List *ls)
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{
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if (ls->cdr == NULL || CDDR (ls) == NULL || CDDDR (ls) != NULL)
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{
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parse_error (ls, "<= takes two arguments.\n");
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return &false_bool_expr; /* default = FALSE */
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}
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if (ls->cdr->token.type != TOK_NUMBER || CDDR (ls)->token.type != TOK_NUMBER)
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{
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parse_error (ls,
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"<= can only be used to compare numerical quantities!\n");
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return &false_bool_expr; /* default = FALSE */
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}
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return (ls->cdr->token.u.n <= CDDR (ls)->token.u.n)
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? &true_bool_expr : &false_bool_expr;
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}
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/* not */
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static BoolExpr *
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BO_not (const List *ls)
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{
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BoolExpr *subexpr = make_boolean_expr (ls->cdr);
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if (subexpr == NULL)
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{
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parse_error(ls, "not takes an argument!\n");
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return &false_bool_expr; /* default = FALSE */
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}
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if (subexpr->type == E_FALSE) return &true_bool_expr;
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if (subexpr->type == E_TRUE ) return &false_bool_expr;
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return create_bool_expr (E_NOT, subexpr);
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}
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/* and */
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static BoolExpr *
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BO_and(const List *ls)
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{
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BoolExpr *subexpr, *ret;
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BOOL hit_true = FALSE;
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ret = create_bool_expr (E_AND, NULL);
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while ((ls = ls->cdr))
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{
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subexpr = make_boolean_expr (ls);
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if (subexpr->type == E_FALSE) /* If we ever hit FALSE, expr is FALSE */
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return &false_bool_expr;
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if (subexpr->type != E_TRUE) /* No sense adding in TRUE statements */
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{
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subexpr->next = ret->subexpr;
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ret->subexpr = subexpr;
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}
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else hit_true = TRUE;
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}
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if (ret->subexpr == NULL)
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{
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if (hit_true) /* If we hit nothing but TRUE's return TRUE */
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return &true_bool_expr;
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parse_error(ls, "and takes arguments!\n");
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return &false_bool_expr; /* default = FALSE */
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}
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if (ret->subexpr->next == NULL) /* (and a) == a */
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return ret->subexpr;
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return ret;
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}
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/* or */
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static BoolExpr *
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BO_or (const List *ls)
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{
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BOOL hit_false = FALSE;
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BoolExpr *subexpr, *ret;
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ret = create_bool_expr (E_OR, NULL);
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while ((ls = ls->cdr))
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{
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subexpr = make_boolean_expr (ls);
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if (subexpr->type == E_TRUE)
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return &true_bool_expr;
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if (subexpr->type == E_FALSE) /* No sense adding in FALSE statements*/
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hit_false = TRUE;
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else
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{
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subexpr->next = ret->subexpr;
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ret->subexpr = subexpr;
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}
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}
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if (ret->subexpr == NULL)
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{
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if (hit_false) /* If we hit nothing but FALSE's return FALSE */
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return &false_bool_expr;
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parse_error(ls, "or takes arguments!\n");
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return &false_bool_expr; /* Default = FALSE */
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}
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if (ret->subexpr->next == NULL) /* (or a) == a */
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return ret->subexpr;
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return ret;
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}
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/* xor */
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static BoolExpr *
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BO_xor (const List *ls)
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{
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BoolExpr *subexpr, *ret;
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BoolExprType answer = E_FALSE;
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BOOL odd_trues = NO;
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ret = create_bool_expr (E_XOR, NULL);
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while ((ls = ls->cdr))
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{
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subexpr = make_boolean_expr (ls);
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if (subexpr->type == E_TRUE)
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{
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odd_trues = !odd_trues;
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if (answer == E_TRUE) answer = E_FALSE;
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else if (answer == E_FALSE) answer = E_TRUE;
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else
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{
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subexpr->next = ret->subexpr;
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ret->subexpr = subexpr;
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}
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}
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else if (subexpr->type != E_FALSE)
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{
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subexpr->next = ret->subexpr;
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ret->subexpr = subexpr;
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answer = E_UNKNOWN;
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}
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}
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if (ret->subexpr == NULL)
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{
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parse_error(ls, "xor takes arguments!\n");
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return &false_bool_expr; /* Default = FALSE */
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}
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if (answer == E_TRUE)
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return &true_bool_expr;
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else if (answer == E_FALSE)
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return &false_bool_expr;
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if (ret->subexpr->next == NULL && !odd_trues) /* (xor a) == a */
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return ret->subexpr;
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if (odd_trues) /* If there were an odd number of TRUE's, toss one in. */
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{
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subexpr = create_bool_expr (E_TRUE, NULL);
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subexpr->next = ret->subexpr;
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ret->subexpr = subexpr;
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}
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return ret;
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}
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static BoolExpr *
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create_bool_expr (BoolExprType type, BoolExpr *subexpr)
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{
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BoolExpr *be = (BoolExpr *) malloc (sizeof (BoolExpr));
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be->type = type;
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be->subexpr = subexpr;
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be->next = NULL;
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return be;
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}
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/* Given a boolean expression and (un)known ifull and ofull conditions, this
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* function returns E_FALSE, E_TRUE or E_UNKNOWN reflecting the truth or
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* falsity of the boolean expression.
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*/
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BoolExprType
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eval_bool_expr (const BoolExpr *be)
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{
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BoolExprType deflt;
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switch (be->type) {
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case E_TRUE: return E_TRUE;
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case E_FALSE: return E_FALSE;
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case E_NOT:
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switch (eval_bool_expr (be->subexpr)) {
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case E_TRUE: return E_FALSE;
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case E_FALSE: return E_TRUE;
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default: return E_UNKNOWN;
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}
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case E_AND:
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deflt = E_TRUE;
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for (be=be->subexpr; be != NULL; be=be->next)
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switch (eval_bool_expr (be)) {
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case E_FALSE: return E_FALSE;
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case E_UNKNOWN: deflt = E_UNKNOWN; break; /* Could still be E_FALSE */
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default: break;
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}
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return deflt;
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case E_OR:
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deflt = E_FALSE;
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for (be=be->subexpr; be != NULL; be=be->next)
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switch (eval_bool_expr (be)) {
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case E_TRUE: return E_TRUE;
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case E_UNKNOWN: deflt = E_UNKNOWN; break; /* Could still be E_TRUE */
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default: break;
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}
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return deflt;
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default: return E_UNKNOWN;
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}
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}
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void
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print_boolean_expr (const BoolExpr *be)
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{
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switch (be->type) {
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case E_TRUE: printf ("true "); break;
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case E_FALSE: printf ("false "); break;
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case E_UNKNOWN: printf ("? "); break;
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case E_NOT:
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printf ("(not ");
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print_boolean_expr (be->subexpr);
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printf (") ");
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break;
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case E_AND:
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printf ("(and ");
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for (be=be->subexpr; be != NULL; be=be->next)
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print_boolean_expr (be);
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printf (") ");
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break;
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case E_OR:
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printf ("(or ");
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for (be=be->subexpr; be != NULL; be=be->next)
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print_boolean_expr (be);
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printf (") ");
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break;
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case E_XOR:
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printf ("(xor ");
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for (be=be->subexpr; be != NULL; be=be->next)
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print_boolean_expr (be);
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printf (") ");
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break;
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}
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}
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