https://github.com/akkartik/mu/blob/master/subx/031check_operands.cc
1
2
3
4 void test_check_missing_imm8_operand() {
5 Hide_errors = true;
6 run(
7 "== code 0x1\n"
8 "cd\n"
9 );
10 CHECK_TRACE_CONTENTS(
11 "error: 'cd' (software interrupt): missing imm8 operand\n"
12 );
13 }
14
15 :(before "Pack Operands(segment code)")
16 check_operands(code);
17 if (trace_contains_errors()) return;
18
19 :(code)
20 void check_operands(const segment& code) {
21 trace(3, "transform") << "-- check operands" << end();
22 for (int i = 0; i < SIZE(code.lines); ++i) {
23 check_operands(code.lines.at(i));
24 if (trace_contains_errors()) return;
25 }
26 }
27
28 void check_operands(const line& inst) {
29 word op = preprocess_op(inst.words.at(0));
30 if (op.data == "0f") {
31 check_operands_0f(inst);
32 return;
33 }
34 if (op.data == "f3") {
35 check_operands_f3(inst);
36 return;
37 }
38 check_operands(inst, op);
39 }
40
41 word preprocess_op(word op) {
42 op.data = tolower(op.data.c_str());
43
44 if (starts_with(op.data, "0x"))
45 op.data = op.data.substr(2);
46 if (SIZE(op.data) == 1)
47 op.data = string("0")+op.data;
48 return op;
49 }
50
51 void test_preprocess_op() {
52 word w1; w1.data = "0xf";
53 word w2; w2.data = "0f";
54 CHECK_EQ(preprocess_op(w1).data, preprocess_op(w2).data);
55 }
56
57
58
59
60
61
62
63
64
65
66 :(before "End Types")
67 enum expected_operand_type {
68
69 MODRM,
70 SUBOP,
71 DISP8,
72 DISP16,
73 DISP32,
74 IMM8,
75 IMM32,
76 NUM_OPERAND_TYPES
77 };
78 :(before "End Globals")
79 vector<string> Operand_type_name;
80 map<string, expected_operand_type> Operand_type;
81 :(before "End One-time Setup")
82 init_op_types();
83 :(code)
84 void init_op_types() {
85 assert(NUM_OPERAND_TYPES <= 8);
86 Operand_type_name.resize(NUM_OPERAND_TYPES);
87 #define DEF(type) Operand_type_name.at(type) = tolower(#type), put(Operand_type, tolower(#type), type);
88 DEF(MODRM);
89 DEF(SUBOP);
90 DEF(DISP8);
91 DEF(DISP16);
92 DEF(DISP32);
93 DEF(IMM8);
94 DEF(IMM32);
95 #undef DEF
96 }
97
98 :(before "End Globals")
99 map<string, uint8_t> Permitted_operands;
100 const uint8_t INVALID_OPERANDS = 0xff;
101 :(before "End One-time Setup")
102 init_permitted_operands();
103 :(code)
104 void init_permitted_operands() {
105
106
107 put(Permitted_operands, "f4", 0x00);
108
109 put(Permitted_operands, "40", 0x00);
110 put(Permitted_operands, "41", 0x00);
111 put(Permitted_operands, "42", 0x00);
112 put(Permitted_operands, "43", 0x00);
113 put(Permitted_operands, "44", 0x00);
114 put(Permitted_operands, "45", 0x00);
115 put(Permitted_operands, "46", 0x00);
116 put(Permitted_operands, "47", 0x00);
117
118 put(Permitted_operands, "48", 0x00);
119 put(Permitted_operands, "49", 0x00);
120 put(Permitted_operands, "4a", 0x00);
121 put(Permitted_operands, "4b", 0x00);
122 put(Permitted_operands, "4c", 0x00);
123 put(Permitted_operands, "4d", 0x00);
124 put(Permitted_operands, "4e", 0x00);
125 put(Permitted_operands, "4f", 0x00);
126
127 put(Permitted_operands, "50", 0x00);
128 put(Permitted_operands, "51", 0x00);
129 put(Permitted_operands, "52", 0x00);
130 put(Permitted_operands, "53", 0x00);
131 put(Permitted_operands, "54", 0x00);
132 put(Permitted_operands, "55", 0x00);
133 put(Permitted_operands, "56", 0x00);
134 put(Permitted_operands, "57", 0x00);
135
136 put(Permitted_operands, "58", 0x00);
137 put(Permitted_operands, "59", 0x00);
138 put(Permitted_operands, "5a", 0x00);
139 put(Permitted_operands, "5b", 0x00);
140 put(Permitted_operands, "5c", 0x00);
141 put(Permitted_operands, "5d", 0x00);
142 put(Permitted_operands, "5e", 0x00);
143 put(Permitted_operands, "5f", 0x00);
144
145 put(Permitted_operands, "99", 0x00);
146
147 put(Permitted_operands, "c3", 0x00);
148
149
150
151
152
153
154 put(Permitted_operands, "eb", 0x04);
155 put(Permitted_operands, "72", 0x04);
156 put(Permitted_operands, "73", 0x04);
157 put(Permitted_operands, "74", 0x04);
158 put(Permitted_operands, "75", 0x04);
159 put(Permitted_operands, "76", 0x04);
160 put(Permitted_operands, "77", 0x04);
161 put(Permitted_operands, "7c", 0x04);
162 put(Permitted_operands, "7d", 0x04);
163 put(Permitted_operands, "7e", 0x04);
164 put(Permitted_operands, "7f", 0x04);
165
166
167
168
169 put(Permitted_operands, "e8", 0x10);
170 put(Permitted_operands, "e9", 0x10);
171
172
173
174
175 put(Permitted_operands, "cd", 0x20);
176
177
178
179
180 put(Permitted_operands, "05", 0x40);
181 put(Permitted_operands, "2d", 0x40);
182 put(Permitted_operands, "25", 0x40);
183 put(Permitted_operands, "0d", 0x40);
184 put(Permitted_operands, "35", 0x40);
185 put(Permitted_operands, "3d", 0x40);
186 put(Permitted_operands, "68", 0x40);
187
188 put(Permitted_operands, "b8", 0x40);
189 put(Permitted_operands, "b9", 0x40);
190 put(Permitted_operands, "ba", 0x40);
191 put(Permitted_operands, "bb", 0x40);
192 put(Permitted_operands, "bc", 0x40);
193 put(Permitted_operands, "bd", 0x40);
194 put(Permitted_operands, "be", 0x40);
195 put(Permitted_operands, "bf", 0x40);
196
197
198
199
200
201
202 put(Permitted_operands, "01", 0x01);
203 put(Permitted_operands, "03", 0x01);
204
205 put(Permitted_operands, "29", 0x01);
206 put(Permitted_operands, "2b", 0x01);
207
208 put(Permitted_operands, "21", 0x01);
209 put(Permitted_operands, "23", 0x01);
210
211 put(Permitted_operands, "09", 0x01);
212 put(Permitted_operands, "0b", 0x01);
213
214 put(Permitted_operands, "31", 0x01);
215 put(Permitted_operands, "33", 0x01);
216
217 put(Permitted_operands, "39", 0x01);
218 put(Permitted_operands, "3b", 0x01);
219
220 put(Permitted_operands, "88", 0x01);
221 put(Permitted_operands, "89", 0x01);
222 put(Permitted_operands, "8a", 0x01);
223 put(Permitted_operands, "8b", 0x01);
224
225 put(Permitted_operands, "87", 0x01);
226
227 put(Permitted_operands, "8d", 0x01);
228
229
230
231
232 put(Permitted_operands, "8f", 0x03);
233 put(Permitted_operands, "d3", 0x03);
234 put(Permitted_operands, "f7", 0x03);
235 put(Permitted_operands, "ff", 0x03);
236
237
238
239
240 put(Permitted_operands, "c1", 0x23);
241 put(Permitted_operands, "c6", 0x23);
242
243
244
245
246 put(Permitted_operands, "81", 0x43);
247 put(Permitted_operands, "c7", 0x43);
248
249
250 }
251
252 #define HAS(bitvector, bit) ((bitvector) & (1 << (bit)))
253 #define SET(bitvector, bit) ((bitvector) | (1 << (bit)))
254 #define CLEAR(bitvector, bit) ((bitvector) & (~(1 << (bit))))
255
256 void check_operands(const line& inst, const word& op) {
257 if (!is_hex_byte(op)) return;
258 uint8_t expected_bitvector = get(Permitted_operands, op.data);
259 if (HAS(expected_bitvector, MODRM)) {
260 check_operands_modrm(inst, op);
261 compare_bitvector_modrm(inst, expected_bitvector, op);
262 }
263 else {
264 compare_bitvector(inst, expected_bitvector, op);
265 }
266 }
267
268
269
270 void compare_bitvector(const line& inst, uint8_t expected, const word& op) {
271 if (all_hex_bytes(inst) && has_operands(inst)) return;
272 uint8_t bitvector = compute_expected_operand_bitvector(inst);
273 if (trace_contains_errors()) return;
274 if (bitvector == expected) return;
275 for (int i = 0; i < NUM_OPERAND_TYPES; ++i, bitvector >>= 1, expected >>= 1) {
276
277 if ((bitvector & 0x1) == (expected & 0x1)) continue;
278 const string& optype = Operand_type_name.at(i);
279 if ((bitvector & 0x1) > (expected & 0x1))
280 raise << "'" << to_string(inst) << "'" << maybe_name(op) << ": unexpected " << optype << " operand\n" << end();
281 else
282 raise << "'" << to_string(inst) << "'" << maybe_name(op) << ": missing " << optype << " operand\n" << end();
283
284 }
285
286 }
287
288 string maybe_name(const word& op) {
289 if (!is_hex_byte(op)) return "";
290 if (!contains_key(Name, op.data)) return "";
291
292 const string& s = get(Name, op.data);
293 return " ("+s.substr(0, s.find(" ("))+')';
294 }
295
296 uint32_t compute_expected_operand_bitvector(const line& inst) {
297 set<string> operands_found;
298 uint32_t bitvector = 0;
299 for (int i = 1; i < SIZE(inst.words); ++i) {
300 bitvector = bitvector | expected_bit_for_received_operand(inst.words.at(i), operands_found, inst);
301 if (trace_contains_errors()) return INVALID_OPERANDS;
302 }
303 return bitvector;
304 }
305
306 bool has_operands(const line& inst) {
307 return SIZE(inst.words) > first_operand(inst);
308 }
309
310 int first_operand(const line& inst) {
311 if (inst.words.at(0).data == "0f") return 2;
312 if (inst.words.at(0).data == "f2" || inst.words.at(0).data == "f3") {
313 if (inst.words.at(1).data == "0f")
314 return 3;
315 else
316 return 2;
317 }
318 return 1;
319 }
320
321
322
323 uint32_t expected_bit_for_received_operand(const word& w, set<string>& instruction_operands, const line& inst) {
324 uint32_t bv = 0;
325 bool found = false;
326 for (int i = 0; i < SIZE(w.metadata); ++i) {
327 string curr = w.metadata.at(i);
328 string expected_metadata = curr;
329 if (curr == "mod" || curr == "rm32" || curr == "r32" || curr == "scale" || curr == "index" || curr == "base")
330 expected_metadata = "modrm";
331 else if (!contains_key(Operand_type, curr)) continue;
332 if (found) {
333 raise << "'" << w.original << "' has conflicting operand types; it should have only one\n" << end();
334 return INVALID_OPERANDS;
335 }
336 if (instruction_operands.find(curr) != instruction_operands.end()) {
337 raise << "'" << to_string(inst) << "': duplicate " << curr << " operand\n" << end();
338 return INVALID_OPERANDS;
339 }
340 instruction_operands.insert(curr);
341 bv = (1 << get(Operand_type, expected_metadata));
342 found = true;
343 }
344 return bv;
345 }
346
347 void test_conflicting_operand_type() {
348 Hide_errors = true;
349 run(
350 "== code 0x1\n"
351 "cd/software-interrupt 80/imm8/imm32\n"
352 );
353 CHECK_TRACE_CONTENTS(
354 "error: '80/imm8/imm32' has conflicting operand types; it should have only one\n"
355 );
356 }
357
358
359
360
361 void test_check_missing_mod_operand() {
362 Hide_errors = true;
363 run(
364 "== code 0x1\n"
365 "81 0/add/subop 3/rm32/ebx 1/imm32\n"
366 );
367 CHECK_TRACE_CONTENTS(
368 "error: '81 0/add/subop 3/rm32/ebx 1/imm32' (combine rm32 with imm32 based on subop): missing mod operand\n"
369 );
370 }
371
372 void check_operands_modrm(const line& inst, const word& op) {
373 if (all_hex_bytes(inst)) return;
374 check_operand_metadata_present(inst, "mod", op);
375 check_operand_metadata_present(inst, "rm32", op);
376
377 if (op.data == "81" || op.data == "8f" || op.data == "ff") {
378 check_operand_metadata_present(inst, "subop", op);
379 check_operand_metadata_absent(inst, "r32", op, "should be replaced by subop");
380 }
381 if (trace_contains_errors()) return;
382 if (metadata(inst, "rm32").data != "4") return;
383
384 uint8_t mod = hex_byte(metadata(inst, "mod").data);
385 if (mod != 3) {
386 check_operand_metadata_present(inst, "base", op);
387 check_operand_metadata_present(inst, "index", op);
388 }
389 else {
390 check_operand_metadata_absent(inst, "base", op, "direct mode");
391 check_operand_metadata_absent(inst, "index", op, "direct mode");
392 }
393
394 }
395
396
397
398 void compare_bitvector_modrm(const line& inst, uint8_t expected, const word& op) {
399 if (all_hex_bytes(inst) && has_operands(inst)) return;
400 uint8_t bitvector = compute_expected_operand_bitvector(inst);
401 if (trace_contains_errors()) return;
402
403 if (has_operand_metadata(inst, "mod")) {
404 int32_t mod = parse_int(metadata(inst, "mod").data);
405 switch (mod) {
406 case 0:
407 if (has_operand_metadata(inst, "rm32") && parse_int(metadata(inst, "rm32").data) == 5)
408 expected |= (1<<DISP32);
409 break;
410 case 1:
411 expected |= (1<<DISP8);
412 break;
413 case 2:
414 expected |= (1<<DISP32);
415 break;
416 }
417 }
418 if (bitvector == expected) return;
419 for (int i = 0; i < NUM_OPERAND_TYPES; ++i, bitvector >>= 1, expected >>= 1) {
420
421 if ((bitvector & 0x1) == (expected & 0x1)) continue;
422 const string& optype = Operand_type_name.at(i);
423 if ((bitvector & 0x1) > (expected & 0x1))
424 raise << "'" << to_string(inst) << "'" << maybe_name(op) << ": unexpected " << optype << " operand\n" << end();
425 else
426 raise << "'" << to_string(inst) << "'" << maybe_name(op) << ": missing " << optype << " operand\n" << end();
427
428 }
429
430 }
431
432 void check_operand_metadata_present(const line& inst, const string& type, const word& op) {
433 if (!has_operand_metadata(inst, type))
434 raise << "'" << to_string(inst) << "'" << maybe_name(op) << ": missing " << type << " operand\n" << end();
435 }
436
437 void check_operand_metadata_absent(const line& inst, const string& type, const word& op, const string& msg) {
438 if (has_operand_metadata(inst, type))
439 raise << "'" << to_string(inst) << "'" << maybe_name(op) << ": unexpected " << type << " operand (" << msg << ")\n" << end();
440 }
441
442 void test_modrm_with_displacement() {
443 Reg[EAX].u = 0x1;
444 transform(
445 "== code 0x1\n"
446
447 "8b/copy 1/mod/lookup+disp8 0/rm32/EAX 2/r32/EDX 4/disp8\n"
448 );
449 CHECK_TRACE_COUNT("error", 0);
450 }
451
452 void test_check_missing_disp8() {
453 Hide_errors = true;
454 transform(
455 "== code 0x1\n"
456 "89/copy 1/mod/lookup+disp8 0/rm32/EAX 1/r32/ECX\n"
457 );
458 CHECK_TRACE_CONTENTS(
459 "error: '89/copy 1/mod/lookup+disp8 0/rm32/EAX 1/r32/ECX' (copy r32 to rm32): missing disp8 operand\n"
460 );
461 }
462
463 void test_check_missing_disp32() {
464 Hide_errors = true;
465 transform(
466 "== code 0x1\n"
467 "8b/copy 0/mod/indirect 5/rm32/.disp32 2/r32/EDX\n"
468 );
469 CHECK_TRACE_CONTENTS(
470 "error: '8b/copy 0/mod/indirect 5/rm32/.disp32 2/r32/EDX' (copy rm32 to r32): missing disp32 operand\n"
471 );
472 }
473
474 void test_conflicting_operands_in_modrm_instruction() {
475 Hide_errors = true;
476 run(
477 "== code 0x1\n"
478 "01/add 0/mod 3/mod\n"
479 );
480 CHECK_TRACE_CONTENTS(
481 "error: '01/add 0/mod 3/mod' has conflicting mod operands\n"
482 );
483 }
484
485 void test_conflicting_operand_type_modrm() {
486 Hide_errors = true;
487 run(
488 "== code 0x1\n"
489 "01/add 0/mod 3/rm32/r32\n"
490 );
491 CHECK_TRACE_CONTENTS(
492 "error: '3/rm32/r32' has conflicting operand types; it should have only one\n"
493 );
494 }
495
496 void test_check_missing_rm32_operand() {
497 Hide_errors = true;
498 run(
499 "== code 0x1\n"
500 "81 0/add/subop 0/mod 1/imm32\n"
501 );
502 CHECK_TRACE_CONTENTS(
503 "error: '81 0/add/subop 0/mod 1/imm32' (combine rm32 with imm32 based on subop): missing rm32 operand\n"
504 );
505 }
506
507 void test_check_missing_subop_operand() {
508 Hide_errors = true;
509 run(
510 "== code 0x1\n"
511 "81 0/mod 3/rm32/ebx 1/imm32\n"
512 );
513 CHECK_TRACE_CONTENTS(
514 "error: '81 0/mod 3/rm32/ebx 1/imm32' (combine rm32 with imm32 based on subop): missing subop operand\n"
515 );
516 }
517
518 void test_check_missing_base_operand() {
519 Hide_errors = true;
520 run(
521 "== code 0x1\n"
522 "81 0/add/subop 0/mod/indirect 4/rm32/use-sib 1/imm32\n"
523 );
524 CHECK_TRACE_CONTENTS(
525 "error: '81 0/add/subop 0/mod/indirect 4/rm32/use-sib 1/imm32' (combine rm32 with imm32 based on subop): missing base operand\n"
526 );
527 }
528
529 void test_check_missing_index_operand() {
530 Hide_errors = true;
531 run(
532 "== code 0x1\n"
533 "81 0/add/subop 0/mod/indirect 4/rm32/use-sib 0/base 1/imm32\n"
534 );
535 CHECK_TRACE_CONTENTS(
536 "error: '81 0/add/subop 0/mod/indirect 4/rm32/use-sib 0/base 1/imm32' (combine rm32 with imm32 based on subop): missing index operand\n"
537 );
538 }
539
540 void test_check_missing_base_operand_2() {
541 Hide_errors = true;
542 run(
543 "== code 0x1\n"
544 "81 0/add/subop 0/mod/indirect 4/rm32/use-sib 2/index 3/scale 1/imm32\n"
545 );
546 CHECK_TRACE_CONTENTS(
547 "error: '81 0/add/subop 0/mod/indirect 4/rm32/use-sib 2/index 3/scale 1/imm32' (combine rm32 with imm32 based on subop): missing base operand\n"
548 );
549 }
550
551 void test_check_extra_displacement() {
552 Hide_errors = true;
553 run(
554 "== code 0x1\n"
555 "89/copy 0/mod/indirect 0/rm32/EAX 1/r32/ECX 4/disp8\n"
556 );
557 CHECK_TRACE_CONTENTS(
558 "error: '89/copy 0/mod/indirect 0/rm32/EAX 1/r32/ECX 4/disp8' (copy r32 to rm32): unexpected disp8 operand\n"
559 );
560 }
561
562 void test_check_duplicate_operand() {
563 Hide_errors = true;
564 run(
565 "== code 0x1\n"
566 "89/copy 0/mod/indirect 0/rm32/EAX 1/r32/ECX 1/r32\n"
567 );
568 CHECK_TRACE_CONTENTS(
569 "error: '89/copy 0/mod/indirect 0/rm32/EAX 1/r32/ECX 1/r32': duplicate r32 operand\n"
570 );
571 }
572
573 void test_check_base_operand_not_needed_in_direct_mode() {
574 run(
575 "== code 0x1\n"
576 "81 0/add/subop 3/mod/indirect 4/rm32/use-sib 1/imm32\n"
577 );
578 CHECK_TRACE_COUNT("error", 0);
579 }
580
581 void test_extra_modrm() {
582 Hide_errors = true;
583 run(
584 "== code 0x1\n"
585 "59/pop-to-ECX 3/mod/direct 1/rm32/ECX 4/r32/ESP\n"
586 );
587 CHECK_TRACE_CONTENTS(
588 "error: '59/pop-to-ECX 3/mod/direct 1/rm32/ECX 4/r32/ESP' (pop top of stack to ECX): unexpected modrm operand\n"
589 );
590 }
591
592
593
594 void check_operands_0f(const line& inst) {
595 assert(inst.words.at(0).data == "0f");
596 if (SIZE(inst.words) == 1) {
597 raise << "opcode '0f' requires a second opcode\n" << end();
598 return;
599 }
600 word op = preprocess_op(inst.words.at(1));
601 if (!contains_key(Name_0f, op.data)) {
602 raise << "unknown 2-byte opcode '0f " << op.data << "'\n" << end();
603 return;
604 }
605 check_operands_0f(inst, op);
606 }
607
608 void check_operands_f3(const line& ) {
609 raise << "no supported opcodes starting with f3\n" << end();
610 }
611
612 void test_check_missing_disp32_operand() {
613 Hide_errors = true;
614 run(
615 "== code 0x1\n"
616 " 0f 84 # jmp if ZF to ??\n"
617 );
618 CHECK_TRACE_CONTENTS(
619 "error: '0f 84' (jump disp32 bytes away if equal, if ZF is set): missing disp32 operand\n"
620 );
621 }
622
623 :(before "End Globals")
624 map<string, uint8_t> Permitted_operands_0f;
625 :(before "End Init Permitted Operands")
626
627
628
629 put_new(Permitted_operands_0f, "82", 0x10);
630 put_new(Permitted_operands_0f, "83", 0x10);
631 put_new(Permitted_operands_0f, "84", 0x10);
632 put_new(Permitted_operands_0f, "85", 0x10);
633 put_new(Permitted_operands_0f, "86", 0x10);
634 put_new(Permitted_operands_0f, "87", 0x10);
635 put_new(Permitted_operands_0f, "8c", 0x10);
636 put_new(Permitted_operands_0f, "8d", 0x10);
637 put_new(Permitted_operands_0f, "8e", 0x10);
638 put_new(Permitted_operands_0f, "8f", 0x10);
639
640
641
642
643 put_new(Permitted_operands_0f, "af", 0x01);
644
645 :(code)
646 void check_operands_0f(const line& inst, const word& op) {
647 uint8_t expected_bitvector = get(Permitted_operands_0f, op.data);
648 if (HAS(expected_bitvector, MODRM))
649 check_operands_modrm(inst, op);
650 compare_bitvector_0f(inst, CLEAR(expected_bitvector, MODRM), op);
651 }
652
653 void compare_bitvector_0f(const line& inst, uint8_t expected, const word& op) {
654 if (all_hex_bytes(inst) && has_operands(inst)) return;
655 uint8_t bitvector = compute_expected_operand_bitvector(inst);
656 if (trace_contains_errors()) return;
657 if (bitvector == expected) return;
658 for (int i = 0; i < NUM_OPERAND_TYPES; ++i, bitvector >>= 1, expected >>= 1) {
659
660 if ((bitvector & 0x1) == (expected & 0x1)) continue;
661 const string& optype = Operand_type_name.at(i);
662 if ((bitvector & 0x1) > (expected & 0x1))
663 raise << "'" << to_string(inst) << "'" << maybe_name_0f(op) << ": unexpected " << optype << " operand\n" << end();
664 else
665 raise << "'" << to_string(inst) << "'" << maybe_name_0f(op) << ": missing " << optype << " operand\n" << end();
666
667 }
668
669 }
670
671 string maybe_name_0f(const word& op) {
672 if (!is_hex_byte(op)) return "";
673 if (!contains_key(Name_0f, op.data)) return "";
674
675 const string& s = get(Name_0f, op.data);
676 return " ("+s.substr(0, s.find(" ("))+')';
677 }
678
679 string tolower(const char* s) {
680 ostringstream out;
681 for (; *s; ++s)
682 out << static_cast<char>(tolower(*s));
683 return out.str();
684 }
685
686 #undef HAS
687 #undef SET
688 #undef CLEAR
689
690 :(before "End Includes")
691 #include<cctype>