1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
748
749
750
751
752
753
754
755
756
757
758
759
760
761
762
763
764
765
766
767
768
769
770
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
800
801
802
803
804
805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
828
829
830
831
832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
868
869
870
871
872
873
874
875
876
877
878
879
880
881
882
883
884
885
886
887
888
889
890
891
892
893
894
895
896
897
898
899
900
901
902
903
904
905
906
907
908
909
910
911
912
913
914
915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
930
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
955
956
957
958
959
960
961
962
963
964
965
966
967
968
969
970
971
972
973
974
975
976
977
978
979
980
981
982
983
984
985
986
987
988
989
990
991
992
993
994
995
996
997
998
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
1012
1013
1014
1015
1016
1017
1018
1019
1020
1021
1022
1023
1024
1025
1026
1027
1028
1029
1030
1031
1032
1033
1034
1035
1036
1037
1038
1039
1040
1041
1042
1043
1044
1045
1046
1047
1048
1049
1050
1051
1052
1053
1054
1055
1056
1057
1058
1059
1060
1061
1062
1063
1064
1065
1066
1067
1068
1069
1070
1071
1072
1073
1074
1075
1076
1077
1078
1079
1080
1081
1082
1083
1084
1085
1086
1087
1088
1089
1090
1091
1092
1093
1094
1095
1096
1097
1098
1099
1100
1101
1102
1103
1104
1105
1106
1107
1108
1109
1110
1111
1112
1113
1114
1115
1116
1117
1118
1119
1120
1121
1122
1123
1124
1125
1126
1127
1128
1129
1130
1131
1132
1133
1134
1135
1136
1137
1138
1139
1140
1141
1142
1143
1144
1145
1146
1147
1148
1149
1150
1151
1152
1153
1154
1155
1156
1157
1158
1159
1160
1161
1162
1163
1164
1165
1166
1167
1168
1169
1170
1171
1172
1173
1174
1175
1176
1177
1178
1179
1180
1181
1182
1183
1184
1185
1186
1187
1188
1189
1190
1191
1192
1193
1194
1195
1196
1197
1198
1199
1200
1201
1202
1203
1204
1205
1206
1207
1208
1209
1210
1211
1212
1213
1214
1215
1216
1217
1218
1219
1220
1221
1222
1223
1224
1225
1226
1227
1228
1229
1230
1231
1232
1233
1234
1235
1236
1237
1238
1239
1240
1241
1242
1243
1244
1245
1246
1247
1248
1249
1250
1251
1252
1253
1254
1255
1256
1257
1258
1259
1260
1261
1262
1263
1264
1265
1266
1267
1268
1269
1270
1271
1272
1273
1274
1275
1276
1277
1278
1279
1280
1281
1282
1283
1284
1285
1286
1287
1288
1289
1290
1291
1292
1293
1294
1295
1296
1297
1298
1299
1300
1301
1302
1303
1304
1305
1306
1307
1308
1309
1310
1311
1312
1313
1314
1315
1316
1317
1318
1319
1320
1321
1322
1323
1324
1325
1326
1327
1328
1329
1330
1331
1332
1333
1334
1335
1336
1337
1338
1339
1340
1341
1342
1343
1344
1345
1346
1347
1348
1349
1350
1351
1352
1353
1354
1355
1356
1357
1358
1359
1360
1361
1362
1363
1364
1365
1366
1367
1368
1369
1370
1371
1372
1373
1374
1375
1376
1377
1378
1379
1380
1381
1382
1383
1384
1385
1386
1387
1388
1389
1390
1391
1392
1393
1394
1395
1396
1397
1398
1399
1400
1401
1402
1403
1404
1405
1406
1407
1408
1409
1410
1411
1412
1413
1414
1415
1416
1417
1418
1419
1420
1421
1422
1423
1424
1425
1426
1427
1428
1429
1430
1431
1432
1433
1434
1435
1436
1437
1438
1439
1440
1441
1442
1443
1444
1445
1446
1447
1448
1449
1450
1451
1452
1453
1454
1455
1456
1457
1458
1459
1460
1461
1462
1463
1464
1465
1466
1467
1468
1469
1470
1471
1472
1473
1474
1475
1476
1477
1478
1479
1480
1481
1482
1483
1484
1485
1486
1487
1488
1489
1490
1491
1492
1493
1494
1495
1496
1497
1498
1499
1500
1501
1502
1503
1504
1505
1506
1507
1508
1509
1510
1511
1512
1513
1514
1515
1516
1517
1518
1519
1520
1521
1522
1523
1524
1525
1526
1527
1528
1529
1530
1531
1532
1533
1534
1535
1536
1537
1538
1539
1540
1541
1542
1543
1544
1545
1546
1547
1548
1549
1550
1551
1552
1553
1554
1555
1556
1557
1558
1559
1560
1561
1562
1563
1564
1565
1566
1567
1568
1569
1570
1571
1572
1573
1574
1575
1576
1577
1578
1579
1580
1581
1582
1583
1584
1585
1586
1587
1588
1589
1590
1591
1592
1593
1594
1595
1596
1597
1598
1599
1600
1601
1602
1603
1604
1605
1606
1607
1608
1609
1610
1611
1612
1613
1614
1615
1616
1617
1618
1619
1620
1621
1622
1623
1624
1625
1626
1627
1628
1629
1630
1631
1632
1633
1634
1635
1636
1637
1638
1639
1640
1641
1642
1643
1644
1645
1646
1647
1648
1649
1650
1651
1652
1653
1654
1655
1656
1657
1658
1659
1660
1661
1662
1663
1664
1665
1666
1667
1668
1669
1670
1671
1672
1673
1674
|
/* MIRANDA TYPECHECKER */
/**************************************************************************
* Copyright (C) Research Software Limited 1985-90. All rights reserved. *
* The Miranda system is distributed as free software under the terms in *
* the file "COPYING" which is included in the distribution. *
* *
* Revised to C11 standard and made 64bit compatible, January 2020 *
*------------------------------------------------------------------------*/
#include "data.h"
#include "lex.h"
#include "big.h"
word R=NIL; /* direct-and-indirect dependency graph */
word TABSTRS=NIL; /* list of abstype declarations */
word ND; /* undefined names used in script */
word SBND; /* names specified but not defined (handled separately) */
word FBS; /* list of bindings caused by parameterised %include's */
word ATNAMES; /* global var set by abstr_check */
word NT=NIL; /* undefined typenames used in script */
word TYPERRS;
word bnf_t=0;
word current_id=0,lastloc=0,lineptr=0; /* used to locate type errors */
word showchain=NIL; /* links together all occurrences of special forms (show)
encountered during typecheck */
extern word rfl;
#include <setjmp.h>
jmp_buf env1; /* for longjmp - see man (3) setjmp */
static void abstr_check(word);
static void abstr_mcheck(word);
static void addsubst(word,word);
static word ap_subst(word,word);
static void checkfbs(void);
static int clear_SUBST(void);
static void comp_deps(word);
static word conforms(word,word,word,word);
static word cyclic_abstr(word);
static word etype(word,word,word);
static word fix_type(word);
static void fixshows(void);
static void genbnft(void);
static void infer_type(word);
static word linst(word,word);
static void locate_inc(void);
static void mcheckfbs(void);
static word meta_tcheck(word);
static int non_generic(word);
static int occurs(word,word);
static void out_formal(FILE*,word);
static void out_formal1(FILE*,word);
static void out_type1(word);
static void out_type2(word);
static void out_typel(word);
static void printelement(word);
static void redtfr(word);
static word rembvars(word,word);
static word remove1(word,word*);
static word rep_t(word,word);
static void sterilise(word);
static word subst(word);
static word subsu1(word,word,word);
static word tail(word);
static void txchange(word,word);
static void type_error(char*,char*,word,word);
static void type_error1(word);
static void type_error2(word);
static void type_error3(word);
static void type_error4(word);
static void type_error5(word);
static void type_error6(word,word,word);
static void type_error7(word,word);
static void type_error8(word,word);
static word ult(word);
static int unify(word,word);
static int unify1(word,word);
void checktypes() /* outcome indicated by setting of flags SYNERR, TYPERRS, ND */
{ word s;
extern word freeids,SYNERR,fnts;
ATNAMES=TYPERRS=0;
NT=R=SBND=ND=NIL; /* NT=R= added 4/6/88 */
if(setjmp(env1)==1)goto L;
if(rfl!=NIL)readoption();
for(s=reverse(fil_defs(hd[files]));s!=NIL;s=tl[s])
comp_deps(hd[s]); /* for each identifier in current script, compute
dependencies to form R */
R=tclos(sortrel(R));
if(FBS!=NIL)mcheckfbs();
abstr_mcheck(TABSTRS);
L:if(TYPERRS)
{ /* badly formed types, so give up */
TABSTRS=NT=R=NIL;
printf("typecheck cannot proceed - compilation abandoned\n");
SYNERR=1;
return; }
if(freeids!=NIL)redtfr(freeids);
/* printgraph("dependency analysis:",R); /* for debugging */
genshfns();
if(fnts!=NIL)genbnft();
R=msc(R);
/* printgraph("strong components:",R); /* for debugging */
s=tsort(R);
/* printlist("topological sort:",s); /* for debugging */
NT=R=NIL; /* must be invariant across the call */
while(s!=NIL)infer_type(hd[s]),s=tl[s];
checkfbs();
while(TABSTRS!=NIL)
abstr_check(hd[TABSTRS]),TABSTRS=tl[TABSTRS];
if(SBND!=NIL)
printlist("SPECIFIED BUT NOT DEFINED: ",alfasort(SBND)),SBND=NIL;
fixshows();
lastloc=0;
return;
}
/* NOTES
let element ::= id | list(id)
let graph1 ::= list(cons(id,list(id)))
let graph2 ::= list(cons(element,list(id)))
we define:
comp_deps(id)->builds R::graph1, direct dependencies
R=tclos(sortrel(R))::graph1, direct and indirect dependencies
msc(R)->collects maximal strong components in R, now R::graph2
tsort(graph2)->list(element), topologically sorted
infer_type(element)->fills in the id_type field(s) of element
*/
/* R occupies quadratic worst-case space - does anyone know a better way? */
void comp_deps(n) /* adds to R an entry of the form cons(n,RHS) where n is an
identifier and RHS is a list of all the identifiers in the
current script upon which n directly depends */
/* it also meta-typechecks type specifications, and puts them in reduced
form, as it goes */
word n;
{ word rhs=NIL,r;
/* printf("comp_deps(%s)\n",get_id(n)); /* DEBUG */
if(id_type(n)==type_t)
{ if(t_class(n)==algebraic_t)
{ r=t_info(n);
while(r!=NIL) /* meta type check constructors */
{ current_id=hd[r];
id_type(hd[r])=redtvars(meta_tcheck(id_type(hd[r])));
r=tl[r]; }
}
else if(t_class(n)==synonym_t)
current_id=n,t_info(n)=meta_tcheck(t_info(n));
else if(t_class(n)==abstract_t)
if(t_info(n)==undef_t)
printf("error: script contains no binding for abstract typename\
\"%s\"\n",get_id(n)),sayhere(id_who(n),1),TYPERRS++;
else current_id=n,t_info(n)=meta_tcheck(t_info(n));
/* placeholder types - no action */
current_id=0;
return; }
if(tag[id_val(n)]==CONSTRUCTOR)return;
/* primitive constructors require no type analysis */
if(id_type(n)!=undef_t) /* meta typecheck spec, if present */
{ current_id=n;
if(tag[id_type(n)]==CONS)
{ /* signature identifier */
if(id_val(n)==UNDEF)SBND=add1(n,SBND);
id_type(n)=redtvars(meta_tcheck(hd[id_type(n)]));
current_id=0;
return; } /* typechecked separately, under TABSTRS */
id_type(n)=redtvars(meta_tcheck(id_type(n)));
current_id=0; }
if(id_val(n)==FREE)return; /* no further analysis required */
if(id_val(n)==UNDEF) /* name specified but not defined */
{ SBND=add1(n,SBND); /* change of policy (as for undefined sigid, above) */
return; } /* now not added to ND, so script can be %included */
r=deps(id_val(n));
while(r!=NIL)
{ if(id_val(hd[r])!=UNDEF&&id_type(hd[r])==undef_t)
/* only defined names without explicitly assigned types
cause dependency */
rhs=add1(hd[r],rhs);
r=tl[r]; }
R=cons(cons(n,rhs),R);
}
word tsort(g) /* topological sort - returns a list of the elements in the domain
of relation g, in an order such that each element is preceded by everything
it depends on */
word g; /* the structure of g is "graph2" see NOTES above */
{ word NP=NIL; /* NP is set of elements with no predecessor */
word g1=g, r=NIL; /* r is result */
g=NIL;
while(g1!=NIL)
{ if(tl[hd[g1]]==NIL)NP=cons(hd[hd[g1]],NP);
else g=cons(hd[g1],g);
g1=tl[g1]; }
while(NP!=NIL)
{ word D=NIL; /* ids to be removed from range of g */
while(NP!=NIL)
{ r=cons(hd[NP],r);
if(tag[hd[NP]]==ID)D=add1(hd[NP],D);
else D=UNION(D,hd[NP]);
NP=tl[NP]; }
g1=g;g=NIL;
while(g1!=NIL)
{ word rhs=setdiff(tl[hd[g1]],D);
if(rhs==NIL)NP=cons(hd[hd[g1]],NP);
else tl[hd[g1]]=rhs,g=cons(hd[g1],g);
g1=tl[g1]; }
}
if(g!=NIL)fprintf(stderr,"error: impossible event in tsort\n");
return(reverse(r));
}
word msc(R) /* collects maximal strong components in R, converting it from "graph1"
to "graph2" form - destructive in R */
word R;
{ word R1=R;
while(R1!=NIL)
{ word *r= &tl[hd[R1]],l=hd[hd[R1]];
if(remove1(l,r))
{ hd[hd[R1]]=cons(l,NIL);
while(*r!=NIL)
{ word n=hd[*r],*R2= &tl[R1];
while(*R2!=NIL&&hd[hd[*R2]]!=n)R2= &tl[*R2]; /* find n-entry in R */
if(*R2!=NIL&&member(tl[hd[*R2]],l))
{ *r=tl[*r]; /* remove n from r */
*R2=tl[*R2]; /* remove n's entry from R */
hd[hd[R1]]=add1(n,hd[hd[R1]]);
}
else r= &tl[*r];
}
}
R1=tl[R1];
}
return(R);
}
word meta_pending=NIL;
word meta_tcheck(t) /* returns type t with synonyms substituted out and checks that
the result is well formed */
word t;
{ word tn=t,i=0;
/* TO DO -- TIDY UP ERROR MESSAGES AND SET ERRLINE (ERRS) IF POSS */
while(iscompound_t(tn))
tl[tn]=meta_tcheck(tl[tn]),i++,tn=hd[tn];
if(tag[tn]==STRCONS)goto L; /* patch to handle free type bindings */
if(tag[tn]!=ID)
{ if(i>0&&(isvar_t(tn)||tn==bool_t||tn==num_t||tn==char_t))
{ TYPERRS++;
if(tag[current_id]==DATAPAIR)
locate_inc(),
printf("badly formed type \""),out_type(t),
printf("\" in binding for \"%s\"\n",(char *)hd[current_id]),
printf("("),out_type(tn),printf(" has zero arity)\n");
else
printf("badly formed type \""),out_type(t),
printf("\" in %s for \"%s\"\n",
id_type(current_id)==type_t?"== binding":"specification",
get_id(current_id)),
printf("("),out_type(tn),printf(" has zero arity)\n"),
sayhere(getspecloc(current_id),1);
sterilise(t); }
return(t); }
if(id_type(tn)==undef_t&&id_val(tn)==UNDEF)
{ TYPERRS++;
if(!member(NT,tn))
{ if(tag[current_id]==DATAPAIR)locate_inc();
printf("undeclared typename \"%s\" ",get_id(tn));
if(tag[current_id]==DATAPAIR)
printf("in binding for %s\n",(char *)hd[current_id]);
else sayhere(getspecloc(current_id),1);
NT=add1(tn,NT); }
return(t); }else
if(id_type(tn)!=type_t||t_arity(tn)!=i)
{ TYPERRS++;
if(tag[current_id]==DATAPAIR)
locate_inc(),
printf("badly formed type \""),out_type(t),
printf("\" in binding for \"%s\"\n",(char *)hd[current_id]);
else
printf("badly formed type \""),out_type(t),
printf("\" in %s for \"%s\"\n",
id_type(current_id)==type_t?"== binding":"specification",
get_id(current_id));
if(id_type(tn)!=type_t)
printf("(%s not defined as typename)\n",get_id(tn));
else printf("(typename %s has arity %ld)\n",get_id(tn),t_arity(tn));
if(tag[current_id]!=DATAPAIR)
sayhere(getspecloc(current_id),1);
sterilise(t);
return(t); }
L:if(t_class(tn)!=synonym_t)return(t);
if(member(meta_pending,tn))
{ TYPERRS++;/* report cycle */
if(tag[current_id]==DATAPAIR)locate_inc();
printf("error: cycle in type \"==\" definition%s ",
meta_pending==NIL?"":"s");
printelement(meta_pending); putchar('\n');
if(tag[current_id]!=DATAPAIR)
sayhere(id_who(tn),1);
longjmp(env1,1); /* fatal error - give up */
/* t_class(tn)=algebraic_t;t_info(tn)=NIL;
/* to make sure we dont fall in here again! */
return(t); }
meta_pending=cons(tn,meta_pending);
tn=NIL;
while(iscompound_t(t))
tn=cons(tl[t],tn),t=hd[t];
t=meta_tcheck(ap_subst(t_info(t),tn));
meta_pending=tl[meta_pending];
return(t);
}
/* needless inefficiency - we recheck the rhs of a synonym every time we
use it */
void sterilise(t) /* to prevent multiple reporting of metatype errors from
namelist :: type */
word t;
{ if(tag[t]==AP)hd[t]=list_t,tl[t]=num_t;
}
word tvcount=1;
#define NTV mktvar(tvcount++)
/* brand new type variable */
#define reset_SUBST (current_id=tvcount>=hashsize?clear_SUBST():0)
void infer_type(x) /* deduces the types of the identifiers in x - no result,
works by filling in id_type fields */
word x; /* x is an "element" */
{ if(tag[x]==ID)
{ word t,oldte=TYPERRS;
current_id=x;
t = subst(etype(id_val(x),NIL,NIL));
if(id_type(x)==undef_t)id_type(x)=redtvars(t);
else /* x already has assigned type */
if(!subsumes(t,instantiate(id_type(x))))
{ TYPERRS++;
printf("incorrect declaration ");
sayhere(getspecloc(x),1); /* or: id_who(x) to locate defn */
printf("specified, "); report_type(x); putchar('\n');
printf("inferred, %s :: ",get_id(x)); out_type(redtvars(t));
putchar('\n'); }
if(TYPERRS>oldte)id_type(x)=wrong_t,
id_val(x)=UNDEF,
ND=add1(x,ND);
reset_SUBST; }
else{ /* recursive group of names */
word x1,oldte,ngt=NIL;
for(x1=x;x1!=NIL;x1=tl[x1])
ngt=cons(NTV,ngt),
id_type(hd[x1])=ap(bind_t,hd[ngt]);
for(x1=x;x1!=NIL;x1=tl[x1])
{ oldte=TYPERRS,
current_id=hd[x1],
unify(tl[id_type(hd[x1])],etype(id_val(hd[x1]),NIL,ngt));
if(TYPERRS>oldte)
id_type(hd[x1])=wrong_t,
id_val(hd[x1])=UNDEF,ND=add1(hd[x1],ND); }
for(x1=x;x1!=NIL;x1=tl[x1])
if(id_type(hd[x1])!=wrong_t)
id_type(hd[x1])=redtvars(ult(tl[id_type(hd[x1])]));
reset_SUBST;
}
}
word hereinc; /* location of currently-being-processed %include */
word lasthereinc;
void mcheckfbs()
{ word ff,formals,n;
lasthereinc=0;
for(ff=FBS;ff!=NIL;ff=tl[ff])
{ hereinc=hd[hd[FBS]];
for(formals=tl[hd[ff]];formals!=NIL;formals=tl[formals])
{ word t=tl[tl[hd[formals]]];
if(t!=type_t)continue;
current_id=hd[tl[hd[formals]]]; /* nb datapair(orig,0) not id */
t_info(hd[hd[formals]])=meta_tcheck(t_info(hd[hd[formals]]));
/*ATNAMES=cons(hd[hd[formals]],ATNAMES?ATNAMES:NIL); */
current_id=0;
}
if(TYPERRS)return; /* to avoid misleading error messages */
for(formals=tl[hd[ff]];formals!=NIL;formals=tl[formals])
{ word t=tl[tl[hd[formals]]];
if(t==type_t)continue;
current_id=hd[tl[hd[formals]]]; /* nb datapair(orig,0) not id */
tl[tl[hd[formals]]]=redtvars(meta_tcheck(t));
current_id=0;
}
/* above double traverse is very inefficient way of doing types first
would be better to have bindings sorted in this order beforehand */
}
/* all imported names must now have their types reduced to
canonical form wrt the parameter bindings */
/* alternative method - put info in ATNAMES, see above and in abstr_check */
/* a problem with this is that types do not print in canonical form */
if(TYPERRS)return;
for(ff=tl[files];ff!=NIL;ff=tl[ff])
for(formals=fil_defs(hd[ff]);formals!=NIL;formals=tl[formals])
if(tag[n=hd[formals]]==ID)
if(id_type(n)==type_t)
{ if(t_class(n)==synonym_t)t_info(n)=meta_tcheck(t_info(n)); }
else id_type(n)=redtvars(meta_tcheck(id_type(n)));
} /* wasteful if many includes */
void redtfr(x) /* ensure types of freeids are in reduced form */
word x;
{ for(;x!=NIL;x=tl[x])
tl[tl[hd[x]]] = id_type(hd[hd[x]]);
}
void checkfbs()
/* FBS is list of entries of form cons(hereinfo,formals) where formals
has elements of form cons(id,cons(datapair(orig,0),type)) */
{ word oldte=TYPERRS,formals;
lasthereinc=0;
for(;FBS!=NIL;FBS=tl[FBS])
for(hereinc=hd[hd[FBS]],formals=tl[hd[FBS]];
formals!=NIL;formals=tl[formals])
{ word t,t1=fix_type(tl[tl[hd[formals]]]);
if(t1==type_t)continue;
current_id=hd[tl[hd[formals]]]; /* nb datapair(orig,0) not id */
t = subst(etype(the_val(hd[hd[formals]]),NIL,NIL));
if(!subsumes(t,instantiate(t1)))
{ TYPERRS++;
locate_inc();
printf("binding for parameter `%s' has wrong type\n",
(char *)hd[current_id]);
printf( "required :: "); out_type(tl[tl[hd[formals]]]);
printf("\n actual :: "); out_type(redtvars(t));
putchar('\n'); }
the_val(hd[hd[formals]])=codegen(the_val(hd[hd[formals]])); }
if(TYPERRS>oldte)
{ /* badly typed parameter bindings, so give up */
extern word SYNERR;
TABSTRS=NT=R=NIL;
printf("compilation abandoned\n");
SYNERR=1; }
reset_SUBST;
}
word fix_type(t) /* substitute out any indirected typenames in t */
word t;
{ switch(tag[t])
{ case AP:
case CONS: tl[t]=fix_type(tl[t]);
hd[t]=fix_type(hd[t]);
default: return(t);
case STRCONS: while(tag[pn_val(t)]!=CONS)t=pn_val(t);/*at most twice*/
return(t);
}
}
void locate_inc()
{ if(lasthereinc==hereinc)return;
printf("incorrect %%include directive ");
sayhere(lasthereinc=hereinc,1);
}
void abstr_mcheck(tabstrs) /* meta-typecheck abstract type declarations */
word tabstrs;
{ while(tabstrs!=NIL)
{ word atnames=hd[hd[tabstrs]],sigids=tl[hd[tabstrs]],rtypes=NIL;
if(cyclic_abstr(atnames))return;
while(sigids!=NIL) /* compute representation types */
{ word rt=rep_t(id_type(hd[sigids]),atnames);
/*if(rt==id_type(hd[sigids]))
printf("abstype declaration error: \"%s\" has a type unrelated to \
the abstraction\n",get_id(hd[sigids])),
sayhere(getspecloc(hd[sigids]),1),
TYPERRS++; /* suppressed June 89, see karen.m, secret.m */
rtypes=cons(rt,rtypes);
sigids=tl[sigids]; }
rtypes=reverse(rtypes);
hd[hd[tabstrs]]=cons(hd[hd[tabstrs]],rtypes);
tabstrs=tl[tabstrs];
}
}
void abstr_check(x) /* typecheck the implementation equations of a type abstraction
with the given signature */
word x;
{ word rtypes=tl[hd[x]],sigids=tl[x];
/*int holdat=ATNAMES;
ATNAMES=shunt(hd[hd[x]],ATNAMES); */
ATNAMES=hd[hd[x]];
txchange(sigids,rtypes); /* install representation types */
/* report_types("concrete signature:\n",sigids); /* DEBUG */
for(x=sigids;x!=NIL;x=tl[x])
{ word t,oldte=TYPERRS;
current_id=hd[x];
t=subst(etype(id_val(hd[x]),NIL,NIL));
if(!subsumes(t,instantiate(id_type(hd[x]))))
{ TYPERRS++;
printf("abstype implementation error\n");
printf("\"%s\" is bound to value of type: ",get_id(hd[x]));
out_type(redtvars(t));
printf("\ntype expected: ");
out_type(id_type(hd[x]));
putchar('\n');
sayhere(id_who(hd[x]),1); }
if(TYPERRS>oldte)
id_type(hd[x])=wrong_t,id_val(hd[x])=UNDEF,ND=add1(hd[x],ND);
reset_SUBST; }
/* restore the abstract types - for "finger" */
for(x=sigids;x!=NIL;x=tl[x],rtypes=tl[rtypes])
if(id_type(hd[x])!=wrong_t)id_type(hd[x])=hd[rtypes];
ATNAMES= /* holdat */ 0;
}
word cyclic_abstr(atnames) /* immediately-cyclic acts of dta are illegal */
word atnames;
{ word x,y=NIL;
for(x=atnames;x!=NIL;x=tl[x])y=ap(y,t_info(hd[x]));
for(x=atnames;x!=NIL;x=tl[x])
if(occurs(hd[x],y))
{ printf("illegal type abstraction: cycle in \"==\" binding%s ",
tl[atnames]==NIL?"":"s");
printelement(atnames); putchar('\n');
sayhere(id_who(hd[x]),1);
TYPERRS++; return(1); }
return(0);
}
void txchange(ids,x) /* swap the id_type of each id with the corresponding type
in the list x */
word ids,x;
{ while(ids!=NIL)
{ word t=id_type(hd[ids]);
id_type(hd[ids])=hd[x],hd[x]=t;
ids=tl[ids],x=tl[x]; }
}
void report_type(x)
word x;
{ printf("%s",get_id(x));
if(id_type(x)==type_t)
if(t_arity(x)>5)printf("(arity %ld)",t_arity(x));
else { word i,j;
for(i=1;i<=t_arity(x);i++)
{ putchar(' ');
for(j=0;j<i;j++)putchar('*'); }
}
printf(" :: ");
out_type(id_type(x));
}
void report_types(header,x)
char *header;
word x;
{ printf("%s",header);
while(x!=NIL)
report_type(hd[x]),putchar(';'),x=tl[x];
putchar('\n');
}
word typesfirst(x) /* rearrange list of ids to put types first */
word x;
{ word *y= &x,z=NIL;
while(*y!=NIL)
if(id_type(hd[*y])==type_t)
z=cons(hd[*y],z),*y=tl[*y];
else y= &tl[*y];
return(shunt(z,x));
}
word rep_t1(T,L) /* computes the representation type corresponding to T, wrt the
abstract typenames in L */
/* will need to apply redtvars to result, see below */
/* if no substitutions found, result is identically T */
word T,L;
{ word args=NIL,t1,new=0;
for(t1=T;iscompound_t(t1);t1=hd[t1])
{ word a=rep_t1(tl[t1],L);
if(a!=tl[t1])new=1;
args=cons(a,args); }
if(member(L,t1))return(ap_subst(t_info(t1),args));
/* call to redtvars removed 26/11/85
leads to premature normalisation of subterms */
if(!new)return(T);
while(args!=NIL)
t1=ap(t1,hd[args]),args=tl[args];
return(t1);
}
word rep_t(T,L) /* see above */
word T,L;
{ word t=rep_t1(T,L);
return(t==T?t:redtvars(t));
}
word type_of(x) /* returns the type of expression x, in reduced form */
word x;
{ word t;
TYPERRS=0;
t=redtvars(subst(etype(x,NIL,NIL)));
fixshows();
if(TYPERRS>0)t=wrong_t;
return(t);
}
word checktype(x) /* is expression x well-typed ? */
/* not currently used */
word x;
{ TYPERRS=0;
etype(x,NIL,NIL);
reset_SUBST;
return(!TYPERRS);
}
#define bound_t(t) (iscompound_t(t)&&hd[t]==bind_t)
#define tf(a,b) ap2(arrow_t,a,b)
#define tf2(a,b,c) tf(a,tf(b,c))
#define tf3(a,b,c,d) tf(a,tf2(b,c,d))
#define tf4(a,b,c,d,e) tf(a,tf3(b,c,d,e))
#define lt(a) ap(list_t,a)
#define pair_t(x,y) ap2(comma_t,x,ap2(comma_t,y,void_t))
word tfnum,tfbool,tfbool2,tfnum2,tfstrstr,tfnumnum,ltchar,
tstep,tstepuntil;
void tsetup()
{ tfnum=tf(num_t,num_t);
tfbool=tf(bool_t,bool_t);
tfnum2=tf(num_t,tfnum);
tfbool2=tf(bool_t,tfbool);
ltchar=lt(char_t);
tfstrstr=tf(ltchar,ltchar);
tfnumnum=tf(num_t,num_t);
tstep=tf2(num_t,num_t,lt(num_t));
tstepuntil=tf(num_t,tstep);
}
word exec_t=0,read_t=0,filestat_t=0; /* set lazily, when used */
word genlstat_t() /* type of %lex state */
{ return(pair_t(num_t,num_t)); }
void genbnft() /* if %bnf used, find out input type of parsing fns */
{ word bnftokenstate=findid("bnftokenstate");
if(bnftokenstate!=NIL&&id_type(bnftokenstate)==type_t)
if(t_arity(bnftokenstate)==0)
bnf_t=t_class(bnftokenstate)==synonym_t?
t_info(bnftokenstate):bnftokenstate;
else printf("warning - bnftokenstate has arity>0 (ignored by parser)\n"),
bnf_t=void_t;
else bnf_t=void_t; /* now bnf_t holds the state type */
bnf_t=ap2(comma_t,ltchar,ap2(comma_t,bnf_t,void_t));
} /* the input type for parsers is lt(bnf_t)
note that tl[hd[tl[bnf_t]]] holds the state type */
extern word col_fn;
void checkcolfn() /* if offside rule used, check col_fn has right type */
{ word t=id_type(col_fn),f=tf(tl[hd[tl[bnf_t]]],num_t);
if(t==undef_t||t==wrong_t
/* will be already reported - do not generate further typerrs
in both cases col_fn will behave as undefined name */
||subsumes(instantiate(t),f))
{ col_fn=0; return; } /* no further action required */
printf("`bnftokenindentation' has wrong type for use in offside rule\n");
printf("type required :: "); out_type(f); putchar('\n');
printf(" actual type :: "); out_type(t); putchar('\n');
sayhere(getspecloc(col_fn),1);
TYPERRS++;
col_fn= -1; /* error flag */
} /* note that all parsing fns get type wrong_t if offside rule used
anywhere and col_fn has wrong type - strictly this is overkill */
word etype(x,env,ngt) /* infer a type for an expression, by using unification */
word x,env; /* env is list of local bindings of variables to types */
word ngt; /* ngt is list of non-generic type variables */
{ word a,b,c,d; /* initialise to 0 ? */
switch(tag[x])
{ case AP: if(hd[x]==BADCASE||hd[x]==CONFERROR)return(NTV);
/* don't type check insides of error messages */
{ word ft=etype(hd[x],env,ngt),at=etype(tl[x],env,ngt),rt=NTV;
if(!unify1(ft,ap2(arrow_t,at,rt)))
{ ft=subst(ft);
if(isarrow_t(ft))
if(tag[hd[x]]==AP&&hd[hd[x]]==G_ERROR)
type_error8(at,tl[hd[ft]]);
else
type_error("unify","with",at,tl[hd[ft]]);
else type_error("apply","to",ft,at);
return(NTV); }
return(rt); }
case CONS: { word ht=etype(hd[x],env,ngt),rt=etype(tl[x],env,ngt);
if(!unify1(ap(list_t,ht),rt))
{ type_error("cons","to",ht,rt);
return(NTV); }
return(rt); }
case LEXER: { word hold=lineptr;
lineptr=hd[tl[tl[hd[x]]]];
tl[tl[hd[x]]]=tl[tl[tl[hd[x]]]];/*discard label(hereinf,-)*/
a=etype(tl[tl[hd[x]]],env,ngt);
while((x=tl[x])!=NIL)
{ lineptr=hd[tl[tl[hd[x]]]];
tl[tl[hd[x]]]=tl[tl[tl[hd[x]]]];/*discard label... */
if(!unify1(a,b=etype(tl[tl[hd[x]]],env,ngt)))
{ type_error7(a,b);
lineptr=hold;
return(NTV); }
}
lineptr=hold;
return(tf(ltchar,lt(a))); }
case TCONS: return(ap2(comma_t,etype(hd[x],env,ngt),
etype(tl[x],env,ngt)));
case PAIR: return(ap2(comma_t,etype(hd[x],env,ngt),
ap2(comma_t,etype(tl[x],env,ngt),void_t)));
case DOUBLE:
case INT: return(num_t);
case ID: a=env;
while(a!=NIL) /* take local binding, if present */
if(hd[hd[a]]==x)
return(linst(tl[hd[a]]=subst(tl[hd[a]]),ngt));
else a=tl[a];
a=id_type(x); /* otherwise pick up global binding */
if(bound_t(a))return(tl[a]);
if(a==type_t)type_error1(x);
if(a==undef_t)
{ extern word commandmode;
if(commandmode)type_error2(x);
else
if(!member(ND,x)) /* report first occurrence only */
{ if(lineptr)sayhere(lineptr,0);
else if(tag[current_id]==DATAPAIR) /* see checkfbs */
locate_inc();
printf("undefined name \"%s\"\n",get_id(x));
ND=add1(x,ND); }
return(NTV); }
if(a==wrong_t)return(NTV);
return(instantiate(ATNAMES?rep_t(a,ATNAMES):a));
case LAMBDA: a=NTV; b=NTV;
d=cons(a,ngt);
c=conforms(hd[x],a,env,d);
if(c==-1||!unify(b,etype(tl[x],c,d)))return(NTV);
return(tf(a,b));
case LET: { word e,def=hd[x];
a=NTV,e=conforms(dlhs(def),a,env,cons(a,ngt));
current_id=cons(dlhs(def),current_id);
c=lineptr; lineptr=dval(def);
b = unify(a,etype(dval(def),env,ngt));
lineptr=c;
current_id=tl[current_id];
if(e==-1||!b)return(NTV);
return(etype(tl[x],e,ngt)); }
case LETREC: { word e=env,s=NIL;
a=NIL; c=ngt;
for(d=hd[x];d!=NIL;d=tl[d])
if(dtyp(hd[d])==undef_t)
a=cons(hd[d],a), /* unspecified defs */
dtyp(hd[d])=(b=NTV),
c=cons(b,c), /* collect non-generic tvars */
e=conforms(dlhs(hd[d]),b,e,c);
else dtyp(hd[d])=meta_tcheck(dtyp(hd[d])),
/* should do earlier, and locate errs properly*/
s=cons(hd[d],s), /* specified defs */
e=cons(cons(dlhs(hd[d]),dtyp(hd[d])),e);
if(e==-1)return(NTV);
b=1;
for(;a!=NIL;a=tl[a])
{ current_id=cons(dlhs(hd[a]),current_id);
d=lineptr; lineptr=dval(hd[a]);
b &= unify(dtyp(hd[a]),etype(dval(hd[a]),e,c));
lineptr=d; current_id=tl[current_id]; }
for(;s!=NIL;s=tl[s])
{ current_id=cons(dlhs(hd[s]),current_id);
d=lineptr; lineptr=dval(hd[s]);
if(!subsumes(a=etype(dval(hd[s]),e,ngt),
linst(dtyp(hd[s]),ngt)))
/* would be better to set lineptr to spec here */
b=0,type_error6(dlhs(hd[s]),dtyp(hd[s]),a);
lineptr=d; current_id=tl[current_id]; }
if(!b)return(NTV);
return(etype(tl[x],e,ngt)); }
case TRIES: { word hold=lineptr;
a=NTV;
x=tl[x];
while(x!=NIL&&(lineptr=hd[hd[x]],
unify(a,etype(tl[hd[x]],env,ngt)))
)x=tl[x];
lineptr=hold;
if(x!=NIL)return(NTV);
return(a); }
case LABEL: { word hold=lineptr,t;
lineptr=hd[x];
t=etype(tl[x],env,ngt);
lineptr=hold;
return(t); }
case STARTREADVALS: if(tl[x]==0)
hd[x]=lineptr, /* insert here-info */
tl[x]=NTV,
showchain=cons(x,showchain);
return(tf(ltchar,lt(tl[x])));
case SHOW: hd[x]=lineptr; /* insert here-info */
showchain=cons(x,showchain);
return(tf(tl[x]=NTV,ltchar));
case SHARE: if(tl[x]==undef_t)
{ word h=TYPERRS;
tl[x]=subst(etype(hd[x],env,ngt));
if(TYPERRS>h)hd[x]=UNDEF,tl[x]=wrong_t; }
if(tl[x]==wrong_t)
{ TYPERRS++; return(NTV); }
return(tl[x]);
case CONSTRUCTOR: a=id_type(tl[x]);
return(instantiate(ATNAMES?rep_t(a,ATNAMES):a));
case UNICODE: return(char_t);
case ATOM: if(x<256)return(char_t);
switch(x)
{
case S:a=NTV,b=NTV,c=NTV;
d=tf3(tf2(a,b,c),tf(a,b),a,c);
return(d);
case K:a=NTV,b=NTV;
return(tf2(a,b,a));
case Y:a=NTV;
return(tf(tf(a,a),a));
case C:a=NTV,b=NTV,c=NTV;
return(tf3(tf2(a,b,c),b,a,c));
case B:a=NTV,b=NTV,c=NTV;
return(tf3(tf(a,b),tf(c,a),c,b));
case FORCE:
case G_UNIT:
case G_RULE:
case I:a=NTV;
return(tf(a,a));
case G_ZERO:return(NTV);
case HD:a=NTV;
return(tf(lt(a),a));
case TL:a=lt(NTV);
return(tf(a,a));
case BODY:a=NTV,b=NTV;
return(tf(ap(a,b),a));
case LAST:a=NTV,b=NTV;
return(tf(ap(a,b),b));
case S_p:a=NTV,b=NTV;
c=lt(b);
return(tf3(tf(a,b),tf(a,c),a,c));
case U:
case U_: a=NTV,b=NTV;
c=lt(a);
return(tf2(tf2(a,c,b),c,b));
case Uf: a=NTV,b=NTV,c=NTV;
return(tf2(tf2(tf(a,b),a,c),b,c));
case COND: a=NTV;
return(tf3(bool_t,a,a,a));
case EQ:case GR:case GRE:
case NEQ: a=NTV;
return(tf2(a,a,bool_t));
case NEG: return(tfnum);
case AND:
case OR: return(tfbool2);
case NOT: return(tfbool);
case MERGE:
case APPEND: a=lt(NTV);
return(tf2(a,a,a));
case STEP: return(tstep);
case STEPUNTIL: return(tstepuntil);
case MAP: a=NTV; b=NTV;
return(tf2(tf(a,b),lt(a),lt(b)));
case FLATMAP: a=NTV,b=lt(NTV);
return(tf2(tf(a,b),lt(a),b));
case FILTER: a=NTV; b=lt(a);
return(tf2(tf(a,bool_t),b,b));
case ZIP: a=NTV; b=NTV;
return(tf2(lt(a),lt(b),lt(pair_t(a,b))));
case FOLDL: a=NTV; b=NTV;
return(tf3(tf2(a,b,a),a,lt(b),a));
case FOLDL1: a=NTV;
return(tf2(tf2(a,a,a),lt(a),a));
case LIST_LAST: a=NTV;
return(tf(lt(a),a));
case FOLDR: a=NTV; b=NTV;
return(tf3(tf2(a,b,b),b,lt(a),b));
case MATCHINT:
case MATCH: a=NTV,b=NTV;
return(tf3(a,b,a,b));
case TRY: a=NTV;
return(tf2(a,a,a));
case DROP:
case TAKE: a=lt(NTV);
return(tf2(num_t,a,a));
case SUBSCRIPT:a=NTV;
return(tf2(num_t,lt(a),a));
case P: a=NTV;
b=lt(a);
return(tf2(a,b,b));
case B_p: a=NTV,b=NTV;
c=lt(a);
return(tf3(a,tf(b,c),b,c));
case C_p: a=NTV,b=NTV;
c=lt(b);
return(tf3(tf(a,b),c,a,c));
case S1: a=NTV,b=NTV,c=NTV,d=NTV;
return(tf4(tf2(a,b,c),tf(d,a),tf(d,b),d,c));
case B1: a=NTV,b=NTV,c=NTV,d=NTV;
return(tf4(tf(a,b),tf(c,a),tf(d,c),d,b));
case C1: a=NTV,b=NTV,c=NTV,d=NTV;
return(tf4(tf2(a,b,c),tf(d,a),b,d,c));
case SEQ: a=NTV,b=NTV;
return(tf2(a,b,b));
case ITERATE1:
case ITERATE: a=NTV;
return(tf2(tf(a,a),a,lt(a)));
case EXEC: { if(!exec_t)
a=ap2(comma_t,ltchar,ap2(comma_t,num_t,void_t)),
exec_t=tf(ltchar,ap2(comma_t,ltchar,a));
return(exec_t); }
case READBIN:
case READ: { if(!read_t)
read_t=tf(char_t,ltchar);
/* $- is ap(READ,0) */
return(read_t); }
case FILESTAT: { if(!filestat_t)
filestat_t=tf(ltchar,pair_t(pair_t(num_t,num_t),num_t));
return(filestat_t); }
case FILEMODE:
case GETENV:
case NB_STARTREAD:
case STARTREADBIN:
case STARTREAD: return(tfstrstr);
case GETARGS: return(tf(char_t,lt(ltchar)));
case SHOWHEX:
case SHOWOCT:
case SHOWNUM: return(tf(num_t,ltchar));
case SHOWFLOAT:
case SHOWSCALED: return(tf2(num_t,num_t,ltchar));
case NUMVAL: return(tf(ltchar,num_t));
case INTEGER: return(tf(num_t,bool_t));
case CODE: return(tf(char_t,num_t));
case DECODE: return(tf(num_t,char_t));
case LENGTH: return(tf(lt(NTV),num_t));
case ENTIER_FN: case ARCTAN_FN: case EXP_FN: case SIN_FN:
case COS_FN: case SQRT_FN: case LOG_FN: case LOG10_FN:
return(tfnumnum);
case MINUS:case PLUS:case TIMES:case INTDIV:case FDIV:
case MOD:case POWER: return(tfnum2);
case True: case False: return(bool_t);
case NIL: a=lt(NTV);
return(a);
case NILS: return(ltchar);
case MKSTRICT: a=NTV;
return(tf(char_t,tf(a,a)));
/* the following are not the true types of the G_fns, which have the action
Ai->lt(bnf_t)->(B:lt(bnf_t))
here represented by the type Ai->B. G_CLOSE interfaces the parser fns to
the outside world */
case G_ALT: a=NTV;
return(tf2(a,a,a));
case G_ERROR: a=NTV;
return(tf2(a,tf(lt(bnf_t),a),a));
case G_OPT:
case G_STAR: a=NTV;
return(tf(a,lt(a)));
case G_FBSTAR: a=NTV; b=tf(a,a);
return(tf(b,b));
case G_SYMB: return(tfstrstr);
case G_ANY: return(ltchar);
case G_SUCHTHAT: return(tf(tf(ltchar,bool_t),ltchar));
case G_END: return(lt(bnf_t));
case G_STATE: return(tl[hd[tl[bnf_t]]]);
case G_SEQ: a=NTV; b=NTV;
return(tf2(a,tf(a,b),b));
/* G_RULE has same type as I */
case G_CLOSE: a=NTV;
if(col_fn) /* offside rule used */
if(col_fn== -1) /* arbitrary flag */
TYPERRS++; /*overkill, see note on checkcolfn*/
else checkcolfn();
return(tf3(ltchar,a,lt(bnf_t),a));
case OFFSIDE: return(ltchar);
/* pretend, used by indent, see prelude */
case FAIL: /* compiled from last guard on rhs */
case CONFERROR:
case BADCASE:
case UNDEF: return(NTV);
case ERROR: return(tf(ltchar,NTV));
default: printf("do not know type of ");
out(stdout,x);
putchar('\n');
return(wrong_t);
}
default: printf("unexpected tag in etype ");
out(stdout,tag[x]);
putchar('\n');
return(wrong_t);
}
}
word rhs_here(r)
word r;
{ if(tag[r]==LABEL)return(hd[r]);
if(tag[r]==TRIES)return(hd[hd[lastlink(tl[r])]]);
return(0); /* something wrong */
} /* efficiency hack, sometimes we set lineptr to rhs, can extract here_info
as above when needed */
word conforms(p,t,e,ngt) /* returns new environment of local type bindings obtained
by conforming pattern p to type t; -1 means failure */
word p,t,e,ngt;
{ if(e==-1)return(-1);
if(tag[p]==ID&&!isconstructor(p))return(cons(cons(p,t),e));
if(hd[p]==CONST)
{ unify(etype(tl[p],e,ngt),t); return(e); }
if(tag[p]==CONS)
{ word at=NTV;
if(!unify(lt(at),t))return(-1);
return(conforms(tl[p],t,conforms(hd[p],at,e,ngt),ngt)); }
if(tag[p]==TCONS)
{ word at=NTV,bt=NTV;
if(!unify(ap2(comma_t,at,bt),t))return(-1);
return(conforms(tl[p],bt,conforms(hd[p],at,e,ngt),ngt)); }
if(tag[p]==PAIR)
{ word at=NTV,bt=NTV;
if(!unify(ap2(comma_t,at,ap2(comma_t,bt,void_t)),t))return(-1);
return(conforms(tl[p],bt,conforms(hd[p],at,e,ngt),ngt)); }
if(tag[p]==AP&&tag[hd[p]]==AP&&hd[hd[p]]==PLUS) /* n+k pattern */
{ if(!unify(num_t,t))return(1);
return(conforms(tl[p],num_t,e,ngt)); }
{ word p_args=NIL,pt;
while(tag[p]==AP)p_args=cons(tl[p],p_args),p=hd[p];
if(!isconstructor(p))
{ type_error4(p); return(-1); }
if(id_type(p)==undef_t)
{ type_error5(p); return(-1); }
pt= /*instantiate(id_type(p)); */
instantiate(ATNAMES?rep_t(id_type(p),ATNAMES):id_type(p));
while(p_args!=NIL&&isarrow_t(pt))
{ e=conforms(hd[p_args],tl[hd[pt]],e,ngt),pt=tl[pt],p_args=tl[p_args];
if(e==-1)return(-1); }
if(p_args!=NIL||isarrow_t(pt)){ type_error3(p); return(-1); }
if(!unify(pt,t))return(-1);
return(e);
}}
void locate(s) /* for locating type errors */
char *s;
{ TYPERRS++;
if(TYPERRS==1||lastloc!=current_id) /* avoid tedious repetition */
if(current_id)
if(tag[current_id]==DATAPAIR) /* see checkfbs */
{ locate_inc();
printf("%s in binding for %s\n",s,(char *)hd[current_id]);
return; }
else
{ extern word fnts;
word x=current_id;
printf("%s in definition of ",s);
while(tag[x]==CONS)
if(tag[tl[x]]==ID&&member(fnts,tl[x]))
printf("nonterminal "),x=hd[x]; else /*note1*/
out_formal1(stdout,hd[x]),printf(", subdef of "),
x=tl[x];
printf("%s",get_id(x));
putchar('\n'); }
else printf("%s in expression\n",s);
if(lineptr)sayhere(lineptr,0); else
if(current_id&&id_who(current_id)!=NIL)sayhere(id_who(current_id),0);
lastloc=current_id;
}
/* note1: this is hack to suppress extra `subdef of <fst start symb>' when
reporting error in defn of non-terminal in %bnf stuff */
void sayhere(h,nl) /* h is hereinfo - reports location (in parens, newline if nl)
and sets errline/errs if not already set */
word h,nl;
{ extern word errs,errline;
extern char *current_script;
if(tag[h]!=FILEINFO)
{ h=rhs_here(h);
if(tag[h]!=FILEINFO)
{ fprintf(stderr,"(impossible event in sayhere)\n"); return; }}
printf("(line %3ld of %s\"%s\")",tl[h],
(char *)hd[h]==current_script?"":"%insert file ",(char *)hd[h]);
if(nl)putchar('\n'); else putchar(' ');
if((char *)hd[h]==current_script)
{ if(!errline) /* tells editor where first error is */
errline=tl[h]; }
else { if(!errs)errs=h; }
}
void type_error(a,b,t1,t2)
char *a,*b;
word t1,t2;
{ t1=redtvars(ap(subst(t1),subst(t2)));
t2=tl[t1];t1=hd[t1];
locate("type error");
printf("cannot %s ",a);out_type(t1);
printf(" %s ",b);out_type(t2);putchar('\n');
}
void type_error1(x) /* typename in expression */
word x;
{ locate("type error");
printf("typename used as identifier (%s)\n",get_id(x));
}
void type_error2(x) /* undefined name in expression */
word x;
{ if(compiling)return; /* treat as type error only in $+ data */
TYPERRS++;
printf("undefined name - %s\n",get_id(x));
}
void type_error3(x) /* constructor used at wrong arity in formal */
word x;
{ locate("error");
printf("constructor \"%s\" used at wrong arity in formal\n", get_id(x));
}
void type_error4(x) /* non-constructor as head of formal */
word x;
{ locate("error");
printf("illegal object \""); out_pattern(stdout,x);
printf("\" as head of formal\n");
}
void type_error5(x) /* undeclared constructor in formal */
word x;
{ locate("error");
printf("undeclared constructor \""); out_pattern(stdout,x);
printf("\" in formal\n");
ND=add1(x,ND);
}
void type_error6(x,f,a)
word x,f,a;
{ TYPERRS++;
printf("incorrect declaration "); sayhere(lineptr,1);
printf("specified, %s :: ",get_id(x)); out_type(f); putchar('\n');
printf("inferred, %s :: ",get_id(x)); out_type(redtvars(subst(a)));
putchar('\n');
}
void type_error7(a,b)
word a,b;
{ locate("type error");
printf("\nrhs of lex rule :: ");
out_type(redtvars(subst(b)));
printf("\n type expected :: ");
out_type(redtvars(subst(a)));
putchar('\n');
}
/* void type_error7(t,args)
word t,args;
{ int i=1;
while((args=tl[args])!=NIL)i++;
locate("type error");
printf(i==1?"1st":i==2?"2nd":i==3?"3rd":"%dth",i);
printf(" arg of zip has type :: ");
out_type(redtvars(subst(t)));
printf("\n - should be list\n");
} */
void type_error8(t1,t2)
word t1,t2;
{ word big;
t1=subst(t1); t2=subst(t2);
if(same(hd[t1],hd[t2]))
t1=tl[t1],t2=tl[t2]; /* discard `[bnf_t]->' */
t1=redtvars(ap(t1,t2));
t2=tl[t1];t1=hd[t1];
big = size(t1)>=10 || size(t2)>=10;
locate("type error");
printf("cannot unify%s ",big?"\n ":"");out_type(t1);
printf(big?"\nwith\n ":" with ");out_type(t2);putchar('\n');
}
int unify(t1,t2) /* works by side-effecting SUBST, returns 1,0 as it succeeds
or fails */
word t1,t2;
{ t1=subst(t1),t2=subst(t2);
if(t1==t2)return(1);
if(isvar_t(t1)&&!occurs(t1,t2))
{ addsubst(t1,t2); return(1); }
if(isvar_t(t2)&&!occurs(t2,t1))
{ addsubst(t2,t1); return(1); }
if(iscompound_t(t1)&&iscompound_t(t2)&&
unify1(hd[t1],hd[t2])&&unify1(tl[t1],tl[t2]))return(1);
type_error("unify","with",t1,t2);
return(0);
}
int unify1(t1,t2) /* inner call - exactly like unify, except error reporting is
done only by top level, see above */
/* we do this to avoid printing inner parts of types */
word t1,t2;
{ t1=subst(t1),t2=subst(t2);
if(t1==t2)return(1);
if(isvar_t(t1)&&!occurs(t1,t2))
{ addsubst(t1,t2); return(1); }
if(isvar_t(t2)&&!occurs(t2,t1))
{ addsubst(t2,t1); return(1); }
if(iscompound_t(t1)&&iscompound_t(t2))
return(unify1(hd[t1],hd[t2])&&unify1(tl[t1],tl[t2]));
return(0);
}
word subsumes(t1,t2) /* like unify but lop-sided; returns 1,0 as t2 falls, doesnt
fall under t1 */
word t1,t2;
{ if(t2==wrong_t)return(1);
/* special case, shows up only when compiling prelude (changetype etc) */
return(subsu1(t1,t2,t2)); }
word subsu1(t1,t2,T2)
word t1,t2,T2;
{ t1=subst(t1);
if(t1==t2)return(1);
if(isvar_t(t1)&&!occurs(t1,T2))
{ addsubst(t1,t2); return(1); }
if(iscompound_t(t1)&&iscompound_t(t2))
return(subsu1(hd[t1],hd[t2],T2)&&subsu1(tl[t1],tl[t2],T2));
return(0);
}
word walktype(t,f) /* make a copy of t with f applied to its variables */
word t;
word (*f)();
{ if(isvar_t(t))return((*f)(t));
if(iscompound_t(t))
{ word h1=walktype(hd[t],f);
word t1=walktype(tl[t],f);
return(h1==hd[t]&&t1==tl[t]?t:ap(h1,t1)); }
return(t);
}
int occurs(tv,t) /* does tv occur in type t? */
word tv,t;
{ while(iscompound_t(t))
{ if(occurs(tv,tl[t]))return(1);
t=hd[t]; }
return(tv==t);
}
int ispoly(t) /* does t contain tvars? (should call subst first) */
word t;
{ while(iscompound_t(t))
{ if(ispoly(tl[t]))return(1);
t=hd[t]; }
return(isvar_t(t));
}
word SUBST[hashsize]; /* hash table of substitutions */
int clear_SUBST()
/* To save time and space we call this after a type inference to clear out
substitutions in extinct variables. Calling this too often can slow you
down - whence #define reset_SUBST, see above */
{ word i;
fixshows();
for(i=0;i<hashsize;i++)SUBST[i]=0;
/*printf("tvcount=%d\n",tvcount); /* probe */
tvcount=1;
return(0); /* see defn of reset_SUBST */
}
/* doubling hashsize from 512 to 1024 speeded typecheck by only 3% on
parser.m (=350 line block, used c. 5000 tvars) - may be worth increasing
for very large programs however. Guesstimate - further increase from
512 would be worthwhile on blocks>2000 lines */
void fixshows()
{ while(showchain!=NIL)
{ tl[hd[showchain]]=subst(tl[hd[showchain]]);
showchain=tl[showchain]; }
}
word lookup(tv) /* find current substitution for type variable */
word tv;
{ word h=SUBST[hashval(tv)];
while(h)
{ if(eqtvar(hd[hd[h]],tv))return(tl[hd[h]]);
h=tl[h]; }
return(tv); /* no substitution found, so answer is self */
}
void addsubst(tv,t) /* add new substitution to SUBST */
word tv,t;
{ word h=hashval(tv);
SUBST[h]=cons(cons(tv,t),SUBST[h]);
}
word ult(tv) /* fully substituted out value of a type var */
word tv;
{ word s=lookup(tv);
return(s==tv?tv:subst(s));
}
word subst(t) /* returns fully substituted out value of type expression */
word t;
{ return(walktype(t,ult));
}
word localtvmap=NIL;
word NGT=0;
word lmap(tv)
word tv;
{ word l;
if(non_generic(tv))return(tv);
for(l=localtvmap;l!=NIL;l=tl[l])
if(hd[hd[l]]==tv)return(tl[hd[l]]);
localtvmap=cons(cons(tv,l=NTV),localtvmap);
return(l);
}
word linst(t,ngt) /* local instantiate */
word t,ngt; /* relevant tvars are those not in ngt */
{ localtvmap=NIL; NGT=ngt;
return(walktype(t,lmap));
}
int non_generic(tv)
word tv;
{ word x;
for(x=NGT;x!=NIL;x=tl[x])
if(occurs(tv,subst(hd[x])))return(1);
return(0);
} /* note that when a non-generic tvar is unified against a texp, all tvars
in texp become non-generic; this is catered for by call to subst above
(obviating the need for unify to directly side-effect NGT) */
word tvmap=NIL;
word mapup(tv)
word tv;
{ word *m= &tvmap;
tv=gettvar(tv);
while(--tv)m= &tl[*m];
if(*m==NIL)*m=cons(NTV,NIL);
return(hd[*m]);
}
word instantiate(t) /* make a copy of t with a new set of type variables */
word t; /* t MUST be in reduced form - see redtvars */
{ tvmap=NIL;
return(walktype(t,mapup));
}
word ap_subst(t,args) /* similar, but with a list of substitions for the type
variables provided (args). Again, t must be in reduced form */
word t,args;
{ word r;
tvmap=args;
r=walktype(t,mapup);
tvmap=NIL; /* ready for next use */
return(r);
}
word mapdown(tv)
word tv;
{ word *m= &tvmap;
word i=1;
while(*m!=NIL&&!eqtvar(hd[*m],tv))m= &tl[*m],i++;
if(*m==NIL)*m=cons(tv,NIL);
return(mktvar(i));
}
word redtvars(t) /* renames the variables in t, in order of appearance to walktype,
using the numbers 1,2,3... */
word t;
{ tvmap=NIL;
return(walktype(t,mapdown));
}
word remove1(e,ss) /* destructively remove e from set with address ss, returning
1 if e was present, 0 otherwise */
word e,*ss;
{ while(*ss!=NIL&&hd[*ss]<e)ss= &tl[*ss]; /* we assume set in address order */
if(*ss==NIL||hd[*ss]!=e)return(0);
*ss=tl[*ss];
return(1);
}
word setdiff(s1,s2) /* destructive on s1, returns set difference */
word s1,s2; /* both are in ascending address order */
{ word *ss1= &s1;
while(*ss1!=NIL&&s2!=NIL)
if(hd[*ss1]==hd[s2])*ss1=tl[*ss1]; else /* removes element */
if(hd[*ss1]<hd[s2])ss1= &tl[*ss1];
else s2=tl[s2];
return(s1);
}
word add1(e,s) /* inserts e destructively into set s, kept in ascending address
order */
word e,s;
{ word s1=s;
if(s==NIL||e<hd[s])return(cons(e,s));
if(e==hd[s])return(s); /* no duplicates! */
while(tl[s1]!=NIL&&e>hd[tl[s1]])s1=tl[s1];
if(tl[s1]==NIL)tl[s1]=cons(e,NIL);else
if(e!=hd[tl[s1]])tl[s1]=cons(e,tl[s1]);
return(s);
}
word NEW; /* nasty hack, see rules */
word newadd1(e,s) /* as above, but with side-effect on NEW */
word e,s;
{ word s1=s;
NEW=1;
if(s==NIL||e<hd[s])return(cons(e,s));
if(e==hd[s]){ NEW=0; return(s); } /* no duplicates! */
while(tl[s1]!=NIL&&e>hd[tl[s1]])s1=tl[s1];
if(tl[s1]==NIL)tl[s1]=cons(e,NIL);else
if(e!=hd[tl[s1]])tl[s1]=cons(e,tl[s1]);
else NEW=0;
return(s);
}
word UNION(s1,s2) /* destructive on s1; s1, s2 both in address order */
word s1,s2;
{ word *ss= &s1;
while(*ss!=NIL&&s2!=NIL)
if(hd[*ss]==hd[s2])ss= &tl[*ss],s2=tl[s2]; else
if(hd[*ss]<hd[s2])ss= &tl[*ss];
else *ss=cons(hd[s2],*ss),ss= &tl[*ss],s2=tl[s2];
if(*ss==NIL)
while(s2!=NIL)*ss=cons(hd[s2],*ss),ss= &tl[*ss],s2=tl[s2];
/* must copy tail of s2, in case of later destructive operations on s1 */
return(s1);
}
word intersection(s1,s2) /* s1, s2 and result all in address order */
word s1,s2;
{ word r=NIL;
while(s1!=NIL&&s2!=NIL)
if(hd[s1]==hd[s2])r=cons(hd[s1],r),s1=tl[s1],s2=tl[s2]; else
if(hd[s1]<hd[s2])s1=tl[s1];
else s2=tl[s2];
return(reverse(r));
}
word deps(x) /* returns list of the free identifiers in expression x */
word x;
{ word d=NIL;
L:switch(tag[x])
{ case AP:
case TCONS:
case PAIR:
case CONS: d=UNION(d,deps(hd[x]));
x=tl[x];
goto L;
case ID: return(isconstructor(x)?d:add1(x,d));
case LAMBDA: /* d=UNION(d,patdeps(hd[x]));
/* should add this - see sahbug3.m */
return(rembvars(UNION(d,deps(tl[x])),hd[x]));
case LET: d=rembvars(UNION(d,deps(tl[x])),dlhs(hd[x]));
return(UNION(d,deps(dval(hd[x]))));
case LETREC: { word y;
d=UNION(d,deps(tl[x]));
for(y=hd[x];y!=NIL;y=tl[y])
d=UNION(d,deps(dval(hd[y])));
for(y=hd[x];y!=NIL;y=tl[y])
d=rembvars(d,dlhs(hd[y]));
return(d); }
case LEXER: while(x!=NIL)
d=UNION(d,deps(tl[tl[hd[x]]])),
x=tl[x];
return(d);
case TRIES:
case LABEL: x=tl[x]; goto L;
case SHARE: x=hd[x]; goto L; /* repeated analysis - fix later */
default: return(d);
}}
word rembvars(x,p) /* x is list of ids in address order, remove bv's of pattern p
(destructive on x) */
word x,p;
{ L:
switch(tag[p])
{ case ID: return(remove1(p,&x),x);
case CONS: if(hd[p]==CONST)return(x);
x=rembvars(x,hd[p]);p=tl[p];goto L;
case AP: if(tag[hd[p]]==AP&&hd[hd[p]]==PLUS)
p=tl[p]; /* for n+k patterns */
else { x=rembvars(x,hd[p]);p=tl[p]; }
goto L;
case PAIR:
case TCONS: x=rembvars(x,hd[p]);p=tl[p];goto L;
default: fprintf(stderr, "impossible event in rembvars\n");
return(x);
}}
word member(s,x)
word s,x;
{ while(s!=NIL&&x!=hd[s])s=tl[s];
return(s!=NIL);
}
void printgraph(title,g) /* for debugging info */
char *title;
word g;
{ printf("%s\n",title);
while(g!=NIL)
{ printelement(hd[hd[g]]); putchar(':');
printelement(tl[hd[g]]); printf(";\n");
g=tl[g]; }
}
void printelement(x)
word x;
{ if(tag[x]!=CONS){ out(stdout,x); return; }
putchar('(');
while(x!=NIL)
{ out(stdout,hd[x]);
x=tl[x];
if(x!=NIL)putchar(' '); }
putchar(')');
}
void printlist(title,l) /* for debugging */
char *title;
word l;
{ printf("%s",title);
while(l!=NIL)
{ printelement(hd[l]);
l=tl[l];
if(l!=NIL)putchar(','); }
printf(";\n");
}
word printob(title,x) /* for debugging */
char *title;
word x;
{ printf("%s",title); out(stdout,x); putchar('\n');
return(x); }
void print2obs(title,title2,x,y) /* for debugging */
char *title,*title2;
word x,y;
{ printf("%s",title); out(stdout,x); printf("%s",title2); out(stdout,y); putchar('\n');
}
word allchars=0; /* flag used by tail */
void out_formal1(f,x)
FILE *f;
word x;
{ extern word nill;
if(hd[x]==CONST)x=tl[x];
if(x==NIL)fprintf(f,"[]"); else
if(tag[x]==CONS&&tail(x)==NIL)
if(allchars)
{ fprintf(f,"\"");while(x!=NIL)fprintf(f,"%s",charname(hd[x])),x=tl[x];
fprintf(f,"\""); } else
{ fprintf(f,"[");
while(x!=nill&&x!=NIL)
{ out_pattern(f,hd[x]);
x=tl[x];
if(x!=nill&&x!=NIL)fprintf(f,","); }
fprintf(f,"]"); } else
if(tag[x]==AP||tag[x]==CONS)
{ fprintf(f,"("); out_pattern(f,x);
fprintf(f,")"); } else
if(tag[x]==TCONS||tag[x]==PAIR)
{ fprintf(f,"(");
while(tag[x]==TCONS)
{ out_pattern(f,hd[x]);
x=tl[x]; fprintf(f,","); }
out_pattern(f,hd[x]); fprintf(f,","); out_pattern(f,tl[x]);
fprintf(f,")"); } else
if(tag[x]==INT&&big_is_negative(x)||tag[x]==DOUBLE&&get_dbl(x)<0)
{ fprintf(f,"("); out(f,x); fprintf(f,")"); } /* -ve numbers */
else
out(f,x); /* all other cases */
}
void out_pattern(f,x)
FILE *f;
word x;
{ if(tag[x]==CONS)
if(hd[x]==CONST&&(tag[tl[x]]==INT||tag[tl[x]]==DOUBLE))out(f,tl[x]); else
if(hd[x]!=CONST&&tail(x)!=NIL)
{ out_formal(f,hd[x]); fprintf(f,":"); out_pattern(f,tl[x]); }
else out_formal(f,x);
else out_formal(f,x);
}
void out_formal(f,x)
FILE *f;
word x;
{ if(tag[x]!=AP)
out_formal1(f,x); else
if(tag[hd[x]]==AP&&hd[hd[x]]==PLUS) /* n+k pattern */
{ out_formal(f,tl[x]); fprintf(f,"+"); out(f,tl[hd[x]]); }
else
{ out_formal(f,hd[x]); fprintf(f," "); out_formal1(f,tl[x]); }
}
word tail(x)
word x;
{ allchars=1;
while(tag[x]==CONS)allchars&=(is_char(hd[x])),x=tl[x];
return(x);
}
void out_type(t) /* for printing external representation of types */
word t;
{ while(isarrow_t(t))
{ out_type1(tl[hd[t]]);
printf("->");
t=tl[t]; }
out_type1(t);
}
void out_type1(t)
word t;
{ if(iscompound_t(t)&&!iscomma_t(t)&&!islist_t(t)&&!isarrow_t(t))
{ out_type1(hd[t]);
putchar(' ');
t=tl[t]; }
out_type2(t);
}
void out_type2(t)
word t;
{ if(islist_t(t))
{ putchar('[');
out_type(tl[t]); /* could be out_typel, but absence of parentheses
might be confusing */
putchar(']'); }else
if(iscompound_t(t))
{ putchar('(');
out_typel(t);
if(iscomma_t(t)&&tl[t]==void_t)putchar(',');
/* type of a one-tuple -- an anomaly that should never occur */
putchar(')'); }else
switch(t)
{
case bool_t: printf("bool"); return;
case num_t: printf("num"); return;
case char_t: printf("char"); return;
case wrong_t: printf("WRONG"); return;
case undef_t: printf("UNKNOWN"); return;
case void_t: printf("()"); return;
case type_t: printf("type"); return;
default: if(tag[t]==ID)printf("%s",get_id(t));else
if(isvar_t(t))
{ word n=gettvar(t);
/*if(1)printf("t%d",n-1); else /* experiment, suppressed */
/*if(n<=26)putchar('a'+n-1); else /* experiment */
if(n>0&&n<7)while(n--)putchar('*'); /* 6 stars max */
else printf("%ld",n); }else
if(tag[t]==STRCONS) /* pname - see hack in privatise */
{ extern char *current_script;
if(tag[pn_val(t)]==ID)printf("%s",get_id(pn_val(t))); else
/* ?? one level of indirection sometimes present */
if(strcmp((char *)hd[tl[t_info(t)]],current_script)==0)
printf("%s",(char *)hd[hd[t_info(t)]]); else /* elision */
printf("`%s@%s'",
(char *)hd[hd[t_info(t)]], /* original typename */
(char *)hd[tl[t_info(t)]]); /* sourcefile */ }
else printf("<BADLY FORMED TYPE:%d,%ld,%ld>",tag[t],hd[t],tl[t]);
}
}
void out_typel(t)
word t;
{ while(iscomma_t(t))
{ out_type(tl[hd[t]]);
t=tl[t];
if(iscomma_t(t))putchar(',');
else if(t!=void_t)printf("<>"); } /* "tuple-cons", shouldn't occur free */
if(t==void_t)return;
out_type(t);
}
/* end of MIRANDA TYPECHECKER */
|