1 /*
2 * Copyright (c) 1989, 1993
3 * The Regents of the University of California. All rights reserved.
4 *
5 * This code is derived from software contributed to Berkeley by
6 * Eamonn McManus of Trinity College Dublin.
7 *
8 * %sccs.include.redist.c%
9 */
10
11 #ifndef lint
12 static char copyright[] =
13 "@(#) Copyright (c) 1989, 1993\n\
14 The Regents of the University of California. All rights reserved.\n";
15 #endif /* not lint */
16
17 #ifndef lint
18 static char sccsid[] = "@(#)arithmetic.c 8.1 (Berkeley) 05/31/93";
19 #endif /* not lint */
20
21 /*
22 * By Eamonn McManus, Trinity College Dublin <emcmanus@cs.tcd.ie>.
23 *
24 * The operation of this program mimics that of the standard Unix game
25 * `arithmetic'. I've made it as close as I could manage without examining
26 * the source code. The principal differences are:
27 *
28 * The method of biasing towards numbers that had wrong answers in the past
29 * is different; original `arithmetic' seems to retain the bias forever,
30 * whereas this program lets the bias gradually decay as it is used.
31 *
32 * Original `arithmetic' delays for some period (3 seconds?) after printing
33 * the score. I saw no reason for this delay, so I scrapped it.
34 *
35 * There is no longer a limitation on the maximum range that can be supplied
36 * to the program. The original program required it to be less than 100.
37 * Anomalous results may occur with this program if ranges big enough to
38 * allow overflow are given.
39 *
40 * I have obviously not attempted to duplicate bugs in the original. It
41 * would go into an infinite loop if invoked as `arithmetic / 0'. It also
42 * did not recognise an EOF in its input, and would continue trying to read
43 * after it. It did not check that the input was a valid number, treating any
44 * garbage as 0. Finally, it did not flush stdout after printing its prompt,
45 * so in the unlikely event that stdout was not a terminal, it would not work
46 * properly.
47 */
48
49 #include <sys/types.h>
50 #include <sys/signal.h>
51 #include <ctype.h>
52 #include <stdio.h>
53 #include <string.h>
54
55 char keylist[] = "+-x/";
56 char defaultkeys[] = "+-";
57 char *keys = defaultkeys;
58 int nkeys = sizeof(defaultkeys) - 1;
59 int rangemax = 10;
60 int nright, nwrong;
61 time_t qtime;
62 #define NQUESTS 20
63
64 /*
65 * Select keys from +-x/ to be asked addition, subtraction, multiplication,
66 * and division problems. More than one key may be given. The default is
67 * +-. Specify a range to confine the operands to 0 - range. Default upper
68 * bound is 10. After every NQUESTS questions, statistics on the performance
69 * so far are printed.
70 */
71 void
main(argc,argv)72 main(argc, argv)
73 int argc;
74 char **argv;
75 {
76 extern char *optarg;
77 extern int optind;
78 int ch, cnt;
79 void intr();
80
81 while ((ch = getopt(argc, argv, "r:o:")) != EOF)
82 switch(ch) {
83 case 'o': {
84 register char *p;
85
86 for (p = keys = optarg; *p; ++p)
87 if (!index(keylist, *p)) {
88 (void)fprintf(stderr,
89 "arithmetic: unknown key.\n");
90 exit(1);
91 }
92 nkeys = p - optarg;
93 break;
94 }
95 case 'r':
96 if ((rangemax = atoi(optarg)) <= 0) {
97 (void)fprintf(stderr,
98 "arithmetic: invalid range.\n");
99 exit(1);
100 }
101 break;
102 case '?':
103 default:
104 usage();
105 }
106 if (argc -= optind)
107 usage();
108
109 /* Seed the random-number generator. */
110 srandom((int)time((time_t *)NULL));
111
112 (void)signal(SIGINT, intr);
113
114 /* Now ask the questions. */
115 for (;;) {
116 for (cnt = NQUESTS; cnt--;)
117 if (problem() == EOF)
118 exit(0);
119 showstats();
120 }
121 /* NOTREACHED */
122 }
123
124 /* Handle interrupt character. Print score and exit. */
125 void
intr()126 intr()
127 {
128 showstats();
129 exit(0);
130 }
131
132 /* Print score. Original `arithmetic' had a delay after printing it. */
showstats()133 showstats()
134 {
135 if (nright + nwrong > 0) {
136 (void)printf("\n\nRights %d; Wrongs %d; Score %d%%",
137 nright, nwrong, (int)(100L * nright / (nright + nwrong)));
138 if (nright > 0)
139 (void)printf("\nTotal time %ld seconds; %.1f seconds per problem\n\n",
140 (long)qtime, (float)qtime / nright);
141 }
142 (void)printf("\n");
143 }
144
145 /*
146 * Pick a problem and ask it. Keeps asking the same problem until supplied
147 * with the correct answer, or until EOF or interrupt is typed. Problems are
148 * selected such that the right operand and either the left operand (for +, x)
149 * or the correct result (for -, /) are in the range 0 to rangemax. Each wrong
150 * answer causes the numbers in the problem to be penalised, so that they are
151 * more likely to appear in subsequent problems.
152 */
problem()153 problem()
154 {
155 register char *p;
156 time_t start, finish;
157 int left, op, right, result;
158 char line[80];
159
160 op = keys[random() % nkeys];
161 if (op != '/')
162 right = getrandom(rangemax + 1, op, 1);
163 retry:
164 /* Get the operands. */
165 switch (op) {
166 case '+':
167 left = getrandom(rangemax + 1, op, 0);
168 result = left + right;
169 break;
170 case '-':
171 result = getrandom(rangemax + 1, op, 0);
172 left = right + result;
173 break;
174 case 'x':
175 left = getrandom(rangemax + 1, op, 0);
176 result = left * right;
177 break;
178 case '/':
179 right = getrandom(rangemax, op, 1) + 1;
180 result = getrandom(rangemax + 1, op, 0);
181 left = right * result + random() % right;
182 break;
183 }
184
185 /*
186 * A very big maxrange could cause negative values to pop
187 * up, owing to overflow.
188 */
189 if (result < 0 || left < 0)
190 goto retry;
191
192 (void)printf("%d %c %d = ", left, op, right);
193 (void)fflush(stdout);
194 (void)time(&start);
195
196 /*
197 * Keep looping until the correct answer is given, or until EOF or
198 * interrupt is typed.
199 */
200 for (;;) {
201 if (!fgets(line, sizeof(line), stdin)) {
202 (void)printf("\n");
203 return(EOF);
204 }
205 for (p = line; *p && isspace(*p); ++p);
206 if (!isdigit(*p)) {
207 (void)printf("Please type a number.\n");
208 continue;
209 }
210 if (atoi(p) == result) {
211 (void)printf("Right!\n");
212 ++nright;
213 break;
214 }
215 /* Wrong answer; penalise and ask again. */
216 (void)printf("What?\n");
217 ++nwrong;
218 penalise(right, op, 1);
219 if (op == 'x' || op == '+')
220 penalise(left, op, 0);
221 else
222 penalise(result, op, 0);
223 }
224
225 /*
226 * Accumulate the time taken. Obviously rounding errors happen here;
227 * however they should cancel out, because some of the time you are
228 * charged for a partially elapsed second at the start, and some of
229 * the time you are not charged for a partially elapsed second at the
230 * end.
231 */
232 (void)time(&finish);
233 qtime += finish - start;
234 return(0);
235 }
236
237 /*
238 * Here is the code for accumulating penalties against the numbers for which
239 * a wrong answer was given. The right operand and either the left operand
240 * (for +, x) or the result (for -, /) are stored in a list for the particular
241 * operation, and each becomes more likely to appear again in that operation.
242 * Initially, each number is charged a penalty of WRONGPENALTY, giving it that
243 * many extra chances of appearing. Each time it is selected because of this,
244 * its penalty is decreased by one; it is removed when it reaches 0.
245 *
246 * The penalty[] array gives the sum of all penalties in the list for
247 * each operation and each operand. The penlist[] array has the lists of
248 * penalties themselves.
249 */
250
251 int penalty[sizeof(keylist) - 1][2];
252 struct penalty {
253 int value, penalty; /* Penalised value and its penalty. */
254 struct penalty *next;
255 } *penlist[sizeof(keylist) - 1][2];
256
257 #define WRONGPENALTY 5 /* Perhaps this should depend on maxrange. */
258
259 /*
260 * Add a penalty for the number `value' to the list for operation `op',
261 * operand number `operand' (0 or 1). If we run out of memory, we just
262 * forget about the penalty (how likely is this, anyway?).
263 */
penalise(value,op,operand)264 penalise(value, op, operand)
265 int value, op, operand;
266 {
267 struct penalty *p;
268 char *malloc();
269
270 op = opnum(op);
271 if ((p = (struct penalty *)malloc((u_int)sizeof(*p))) == NULL)
272 return;
273 p->next = penlist[op][operand];
274 penlist[op][operand] = p;
275 penalty[op][operand] += p->penalty = WRONGPENALTY;
276 p->value = value;
277 }
278
279 /*
280 * Select a random value from 0 to maxval - 1 for operand `operand' (0 or 1)
281 * of operation `op'. The random number we generate is either used directly
282 * as a value, or represents a position in the penalty list. If the latter,
283 * we find the corresponding value and return that, decreasing its penalty.
284 */
getrandom(maxval,op,operand)285 getrandom(maxval, op, operand)
286 int maxval, op, operand;
287 {
288 int value;
289 register struct penalty **pp, *p;
290
291 op = opnum(op);
292 value = random() % (maxval + penalty[op][operand]);
293
294 /*
295 * 0 to maxval - 1 is a number to be used directly; bigger values
296 * are positions to be located in the penalty list.
297 */
298 if (value < maxval)
299 return(value);
300 value -= maxval;
301
302 /*
303 * Find the penalty at position `value'; decrement its penalty and
304 * delete it if it reaches 0; return the corresponding value.
305 */
306 for (pp = &penlist[op][operand]; (p = *pp) != NULL; pp = &p->next) {
307 if (p->penalty > value) {
308 value = p->value;
309 penalty[op][operand]--;
310 if (--(p->penalty) <= 0) {
311 p = p->next;
312 (void)free((char *)*pp);
313 *pp = p;
314 }
315 return(value);
316 }
317 value -= p->penalty;
318 }
319 /*
320 * We can only get here if the value from the penalty[] array doesn't
321 * correspond to the actual sum of penalties in the list. Provide an
322 * obscure message.
323 */
324 (void)fprintf(stderr, "arithmetic: bug: inconsistent penalties\n");
325 exit(1);
326 /* NOTREACHED */
327 }
328
329 /* Return an index for the character op, which is one of [+-x/]. */
opnum(op)330 opnum(op)
331 int op;
332 {
333 char *p;
334
335 if (op == 0 || (p = index(keylist, op)) == NULL) {
336 (void)fprintf(stderr,
337 "arithmetic: bug: op %c not in keylist %s\n", op, keylist);
338 exit(1);
339 }
340 return(p - keylist);
341 }
342
343 /* Print usage message and quit. */
usage()344 usage()
345 {
346 (void)fprintf(stderr, "usage: arithmetic [-o +-x/] [-r range]\n");
347 exit(1);
348 }
349