Nife version Beta
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  1. /* Copyright (C) 2011-2024 Patrick H. E. Foubet - S.E.R.I.A.N.E.
  2. This program is free software: you can redistribute it and/or modify
  3. it under the terms of the GNU General Public License as published by
  4. the Free Software Foundation, either version 3 of the License, or any
  5. later version.
  6. This program is distributed in the hope that it will be useful,
  7. but WITHOUT ANY WARRANTY; without even the implied warranty of
  8. MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
  9. GNU General Public License for more details.
  10. You should have received a copy of the GNU General Public License
  11. along with this program. If not, see <http://www.gnu.org/licenses/>
  12. *******************************************************************/
  13. /* stackF.c */
  14. #include "conf.h"
  15. #include <stdio.h>
  16. #include <stdlib.h>
  17. #include <string.h>
  18. #include <strings.h>
  19. #include "nife.h"
  20. #include "mth.h"
  21. #include "err.h"
  22. #include "debug.h"
  23. #include "lib.h"
  24. #include "stackF.h"
  25. #include "stackN.h"
  26. #include "stackC.h"
  27. #include "stackL.h"
  28. #include "stackV.h"
  29. #include "tasks.h"
  30. #define MAXCODE 2048
  31. int FctInTask=0;
  32. static void * stackF = VIDE;
  33. struct Fct {
  34. char *l; /* libelle */
  35. void *n; /* next */
  36. void *c; /* code */
  37. short typ; /* type : 0 std, 1 sys in compilation, 2 sys terminated */
  38. };
  39. void initFct(char *Lib, int typ)
  40. {
  41. void * M, *L;
  42. struct Fct * N;
  43. if ((M = malloc(sizeof(struct Fct))) == NULL) stopErr("initFct","malloc");
  44. if ((L = malloc(strlen(Lib)+1)) == NULL) stopErr("initFct","malloc");
  45. strcpy((char*)L,Lib);
  46. N = (struct Fct*)M;
  47. N->l = (char*)L;
  48. N->n = stackF;
  49. N->c = VIDE;
  50. N->typ = typ;
  51. stackF = M;
  52. }
  53. static void eraseFct(struct Fct *F)
  54. {
  55. int i,n;
  56. char *C, *E;
  57. void *A, *W;
  58. struct Fct *FD;
  59. /* printf("eraseFct(%s) at 0x%lx\n", F->l, (long)F); */
  60. free((void*)F->l);
  61. /* free associates memories */
  62. if (F->c != VIDE) {
  63. A = F->c;
  64. n = sizeof(A);
  65. i = *(int*)A;
  66. C = (char*)A+(3*sizeof(int));
  67. E = C+i;
  68. while (C < E) {
  69. switch((Code)*C) {
  70. case T_CHA :
  71. case T_CHAS :
  72. case T_NUM :
  73. case T_BKC :
  74. case T_BKC1 :
  75. bcopy((void*)(C+1),(void*)&W,n);
  76. free(W);
  77. break;
  78. case T_FCTD :
  79. case T_FCTDS :
  80. case T_FCTDW :
  81. case T_FCTDWS :
  82. bcopy((void*)(C+1),(void*)&W,n);
  83. FD = (struct Fct*)W;
  84. eraseFct(FD);
  85. break;
  86. default:
  87. break;
  88. }
  89. C+= n+1;
  90. }
  91. free(A);
  92. }
  93. free((void*)F);
  94. }
  95. void updDynFct(void *AF, int M) /* M:0=init, 1=start, 2=stop */
  96. {
  97. int i,n;
  98. char *C, *E;
  99. void *A, *W;
  100. struct Fct *F, *FD;
  101. if (AF == VIDE) return;
  102. F = (struct Fct *)AF;
  103. /* printf("updDynFct(%s) at 0x%lx\n", F->l, (long)F); */
  104. if (F->c == VIDE) return;
  105. A = F->c;
  106. n = sizeof(A);
  107. i = *(int*)A;
  108. C = (char*)A+(3*sizeof(int));
  109. E = C+i;
  110. switch(M) {
  111. case 0 : /* init */
  112. while (C < E) {
  113. switch((Code)*C) {
  114. case T_CHAS :
  115. *C=T_CHA;
  116. break;
  117. case T_VARS :
  118. *C=T_VAR;
  119. break;
  120. case T_EXEKS :
  121. *C=T_EXEK;
  122. break;
  123. case T_FCTD :
  124. case T_FCTDS :
  125. case T_FCTDW :
  126. case T_FCTDWS :
  127. *C=T_EXEK;
  128. bcopy((void*)(C+1),(void*)&W,n);
  129. FD = (struct Fct*)W;
  130. eraseFct(FD);
  131. break;
  132. default:
  133. break;
  134. }
  135. C+= n+1;
  136. }
  137. break;
  138. case 1 : /* start */
  139. while (C < E) {
  140. switch((Code)*C) {
  141. case T_FCTDS :
  142. *C=T_FCTD;
  143. break;
  144. case T_FCTDWS :
  145. *C=T_FCTDW;
  146. break;
  147. default:
  148. break;
  149. }
  150. C+= n+1;
  151. }
  152. break;
  153. case 2 : /* stop */
  154. while (C < E) {
  155. switch((Code)*C) {
  156. case T_EXEK :
  157. *C=T_EXEKS;
  158. break;
  159. case T_FCTD :
  160. *C=T_FCTDS;
  161. break;
  162. case T_FCTDW :
  163. *C=T_FCTDWS;
  164. break;
  165. default:
  166. break;
  167. }
  168. C+= n+1;
  169. }
  170. break;
  171. default:
  172. break;
  173. }
  174. }
  175. void rmLastFct(void)
  176. {
  177. struct Fct *Elt;
  178. if (stackF != VIDE) {
  179. Elt = (struct Fct *)stackF;
  180. if (Elt->typ==2) return;
  181. stackF = Elt->n;
  182. eraseFct(Elt);
  183. } else messErr(7);
  184. }
  185. static void unlinkLastFct(void)
  186. {
  187. struct Fct *Elt;
  188. if (stackF != VIDE) {
  189. Elt = (struct Fct *)stackF;
  190. stackF = Elt->n;
  191. }
  192. }
  193. struct Fct *putCodeFct(void* C)
  194. {
  195. struct Fct *Elt;
  196. if (stackF != VIDE) {
  197. Elt = (struct Fct *)stackF;
  198. if (Elt->c == VIDE) Elt->c = C;
  199. else messErr(8);
  200. }
  201. else messErr(7);
  202. return Elt;
  203. }
  204. void replaceFctS(void)
  205. {
  206. void * Next, * Next2;
  207. struct Fct *Elt, *N, *N2;
  208. if (stackF != VIDE) {
  209. Elt = (struct Fct *)stackF;
  210. if (Elt->n == VIDE) return;
  211. Next = Elt->n;
  212. N = (struct Fct*) Next;
  213. if (N->typ) return;
  214. stackF = Elt->n;
  215. Elt->n = VIDE;
  216. while (Next != VIDE) {
  217. N = (struct Fct*) Next;
  218. Next2 = N->n;
  219. if (Next2==VIDE) {
  220. N->n = (void*)Elt;
  221. return;
  222. } else {
  223. N2 = (struct Fct*) Next2;
  224. if (N2->typ) {
  225. Elt->n = Next2;
  226. N->n = (void*)Elt;
  227. return;
  228. }
  229. }
  230. Next = N->n;
  231. }
  232. }
  233. else messErr(7);
  234. return;
  235. }
  236. void IF_show_stackF(void)
  237. {
  238. void * Next;
  239. struct Fct * N;
  240. char Ctyp;
  241. Next = stackF;
  242. while (Next != VIDE) {
  243. N = (struct Fct*) Next;
  244. if (N->typ) Ctyp='S'; else Ctyp=' ';
  245. printf(" %-25s%c %d octets\n",N->l,Ctyp,*((int*)N->c));
  246. Next = N->n;
  247. }
  248. printf("<end of functions stack>\n");
  249. }
  250. void IFD_show_stackF(void)
  251. {
  252. _IFD_BEGIN_
  253. IF_show_stackF();
  254. _IFD_END_
  255. }
  256. static char cod[MAXCODE];
  257. static int i_cod;
  258. /* pile pour IF ELSE THEN */
  259. static int i_adr;
  260. static void * adr[MAXCODE/4];
  261. static char tad[MAXCODE/4];
  262. /* pile pour BEGIN ... WHILE ... REPEAT / BEGIN ... AGAIN / BEGIN ... UNTIL */
  263. static int i_adB;
  264. static int adB[MAXCODE/4];
  265. static char tcB[MAXCODE/4];
  266. /* pile pour DO ... LOOP / +LOOP */
  267. static int i_adD;
  268. static int adD[MAXCODE/4];
  269. static char tcD[MAXCODE/4];
  270. /* pour l'execution */
  271. static int I_DO=-1;
  272. static char S_DO[MAXCODE/4];
  273. static long D_DO[MAXCODE/4], L_DO[MAXCODE/4];
  274. void IF_nDO (void)
  275. {
  276. putLong((long long)(I_DO+1));
  277. }
  278. static void IF_getIndDo(int v)
  279. {
  280. int i = I_DO - v;
  281. if (i<0) putLong((long long)0);
  282. else putLong((long long)D_DO[i]);
  283. }
  284. int tadExist(Code c)
  285. {
  286. int i=0;
  287. while (i<i_adr) {
  288. if (tad[i] == c) return 1;
  289. i++;
  290. }
  291. return 0;
  292. }
  293. void IF_finFct(void)
  294. {
  295. void * M;
  296. struct Fct * F;
  297. int i,l, *ea, *Ea;
  298. if ((M = malloc((3*sizeof(int))+i_cod)) == NULL)
  299. stopErr("IF_finFct","malloc");
  300. ea = (int*)M;
  301. *ea++ = i_cod;
  302. *ea=0;
  303. Ea=ea+1;
  304. *Ea=0;
  305. /* on remplace tous les MYSELF */
  306. l = sizeof(M);
  307. for (i=0; i<i_cod; i+=(l+1)) {
  308. if (cod[i]==T_MYSF) {
  309. cod[i] = T_FCT;
  310. bcopy((void*)&M,(void*)&cod[i+1],l);
  311. } else {
  312. if (cod[i]==T_ONER) {
  313. if (*ea==0) *ea = i;
  314. else {
  315. messErr(46);
  316. return;
  317. }
  318. } else {
  319. if (cod[i]==T_END) {
  320. if (*Ea==0) *Ea = i;
  321. else {
  322. messErr(47);
  323. return;
  324. }
  325. }
  326. }
  327. }
  328. }
  329. bcopy((void*)cod,(void*)((char*)M+(3*sizeof(int))),i_cod);
  330. F=putCodeFct(M);
  331. if (F->typ) {
  332. F->typ=2;
  333. addFonU(F->l,M);
  334. replaceFctS();
  335. }
  336. /* printf("Total Fct : %d + %d !\n",i_cod,(3*sizeof(int))); */
  337. _MODIF_fctEnCours_(0);
  338. }
  339. void makeFct(Code c,void *A)
  340. {
  341. int d,i;
  342. long L, L2, LE;
  343. d = sizeof(A);
  344. /* printf("makeFct Entree : code %d + %d\n",(int)c,i_cod); */
  345. switch(c) {
  346. case T_RET :
  347. case T_NUM :
  348. case T_CHA :
  349. case T_LIB :
  350. case T_FCT :
  351. case T_MYSF :
  352. case T_DO_I :
  353. case T_DO_J :
  354. case T_DO_K :
  355. case T_VAR :
  356. case T_BKC :
  357. case T_BKC1 :
  358. case T_ONER :
  359. case T_END :
  360. case T_JEND :
  361. case T_EXEK :
  362. cod[i_cod++] = c;
  363. bcopy((void*)&A,(void*)&cod[i_cod],d);
  364. i_cod+=d;
  365. break;
  366. case T_IF :
  367. cod[i_cod++] = c;
  368. adr[i_adr]=(void*)&cod[i_cod];
  369. i_cod+=d;
  370. tad[i_adr++]=c;
  371. break;
  372. case T_ELSE :
  373. if (tad[i_adr-1] == T_IF) {
  374. cod[i_cod++] = T_JMP;
  375. adr[i_adr]=(void*)&cod[i_cod];
  376. L = (void*)&(cod[i_cod]) - adr[i_adr-1];
  377. i_cod+=d;
  378. bcopy((void*)&L,adr[i_adr-1],d);
  379. tad[i_adr++]=c;
  380. } else messErr(14);
  381. break;
  382. case T_THEN :
  383. if ((tad[i_adr-1] == T_IF) || (tad[i_adr-1] == T_ELSE)) {
  384. L = (void*)&cod[i_cod+1] - adr[i_adr-1] - (sizeof(void*)+1);/*AV5*/
  385. bcopy((void*)&L,adr[i_adr-1],d);
  386. tad[i_adr]='\0';
  387. while (tad[i_adr] != T_IF) i_adr--; /* depile adr */
  388. } else messErr(14);
  389. break;
  390. case T_BEGI :
  391. adB[i_adB]=i_cod;
  392. tcB[i_adB++]=c;
  393. break;
  394. case T_DO :
  395. cod[i_cod++] = c;
  396. i_cod+=d;
  397. adD[i_adD]=i_cod;
  398. tcD[i_adD++]=c;
  399. cod[i_cod++] = T_IFD;
  400. L = d+1;
  401. bcopy((void*)&L,(void*)&cod[i_cod],d);
  402. i_cod+=d;
  403. cod[i_cod++] = T_GOTO;
  404. L = -1;
  405. bcopy((void*)&L,(void*)&cod[i_cod],d);
  406. i_cod+=d;
  407. break;
  408. case T_PLOO :
  409. case T_LOOP :
  410. if (tcD[i_adD-1] == T_DO) {
  411. i_adD--; /* on depile */
  412. cod[i_cod++] = c;
  413. i_cod+=d;
  414. cod[i_cod++] = T_GOTO;
  415. L = adD[i_adD];
  416. bcopy((void*)&L,(void*)&cod[i_cod],d);
  417. i_cod+=d;
  418. /* maj des breaks GOTO -1 */
  419. LE = i_cod;
  420. for(i=L;i<i_cod-(d+1);i+=(d+1)) {
  421. if (cod[i] == T_GOTO) {
  422. bcopy((void*)&cod[i+1],(void*)&L2,d);
  423. if (L2==-1) bcopy((void*)&LE,(void*)&cod[i+1],d);
  424. }
  425. }
  426. } else messErr(39);
  427. break;
  428. case T_AGAI :
  429. case T_REPE :
  430. if (tcB[i_adB-1] == T_BEGI) {
  431. i_adB--; /* on depile */
  432. cod[i_cod++] = T_GOTO;
  433. L = adB[i_adB];
  434. bcopy((void*)&L,(void*)&cod[i_cod],d);
  435. i_cod+=d;
  436. /* maj des breaks GOTO -1 */
  437. LE = i_cod;
  438. for(i=L;i<i_cod-(d+1);i+=(d+1)) {
  439. if (cod[i] == T_GOTO) {
  440. bcopy((void*)&cod[i+1],(void*)&L2,d);
  441. if (L2==-1) bcopy((void*)&LE,(void*)&cod[i+1],d);
  442. }
  443. }
  444. } else messErr(22);
  445. break;
  446. case T_UNTI :
  447. case T_WHIL :
  448. if (tcB[i_adB-1] == T_BEGI) {
  449. cod[i_cod++] = T_IFN;
  450. /* if (c==T_UNTI) cod[i_cod++] = T_IFN;
  451. else cod[i_cod++] = T_IF;
  452. */
  453. L = d+1;
  454. bcopy((void*)&L,(void*)&cod[i_cod],d);
  455. i_cod+=d;
  456. cod[i_cod++] = T_GOTO;
  457. if (c==T_UNTI) L = adB[i_adB-1];
  458. else L = -1;
  459. bcopy((void*)&L,(void*)&cod[i_cod],d);
  460. i_cod+=d;
  461. if (c==T_UNTI) {
  462. i_adB--; /* depile adB */
  463. /* maj des breaks GOTO -1 */
  464. LE = i_cod;
  465. for(i=L;i<i_cod-(d+1);i+=(d+1)) {
  466. if (cod[i] == T_GOTO) {
  467. bcopy((void*)&cod[i+1],(void*)&L2,d);
  468. if (L2==-1) bcopy((void*)&LE,(void*)&cod[i+1],d);
  469. }
  470. }
  471. }
  472. } else messErr(22);
  473. break;
  474. case T_BREA :
  475. cod[i_cod++] = T_GOTO;
  476. L = -1; /* special value for BREAK */
  477. bcopy((void*)&L,(void*)&cod[i_cod],d);
  478. i_cod+=d;
  479. break;
  480. default :
  481. messErr(11);
  482. }
  483. }
  484. static void newFct2(char * S, int U)
  485. {
  486. char Lib[LDFLT+1];
  487. strncpy(Lib,S,LDFLT);
  488. Lib[LDFLT]='\0';
  489. initFct(Lib, U);
  490. _MODIF_fctEnCours_(1);
  491. dropTrSuite();
  492. i_cod = 0;
  493. i_adr = 0;
  494. i_adB = 0;
  495. i_adD = 0;
  496. }
  497. static void newFct0(char * S)
  498. {
  499. newFct2(S,0);
  500. }
  501. static void newFct1(char * S)
  502. {
  503. newFct2(S,1);
  504. }
  505. void IF_debFct(void)
  506. {
  507. putTrSuite(newFct0);
  508. }
  509. void IF_debFctS(void)
  510. {
  511. putTrSuite(newFct1);
  512. }
  513. int D_Cod=0; /* deep of execution functions */
  514. static int D_LooP=0; /* deep of execution loops */
  515. static int Do_Evts=0; /* Global events indicator for do...loop */
  516. void IF_DO_MLeave (void)
  517. {
  518. long P, i;
  519. getParLong(&P);
  520. i=I_DO+1;
  521. if (i) {
  522. if (P > i) P=i;
  523. Do_Evts=P;
  524. }
  525. }
  526. void IF_DO_Leave (void)
  527. {
  528. if (I_DO>=0) Do_Evts=1;
  529. }
  530. void IF_DO_Next (void)
  531. {
  532. if (I_DO>=0) Do_Evts=-1;
  533. }
  534. void IF_DO_Show (void)
  535. {
  536. printf("do vars : I_DO=%d Evts=%d\n",I_DO, Do_Evts);
  537. }
  538. void execCod(void *A)
  539. {
  540. int i,n, ea, Ea, *ai, InDo=0, OnErr=0, mFCTP;
  541. long L, P;
  542. char * C, *D, *F, *W, *S, *ADo_Next, *ADo_Leave;
  543. void * T, *T2;
  544. void (*f)(void);
  545. struct Fct * FR;
  546. /* printf("pid = %d ITASK=%d FctInTask=%d\n",getpid(),ITASK,FctInTask);*/
  547. if (FctInTask) {
  548. if (ITASK==0) {
  549. if (FctInTask==-1) {
  550. FctInTask=0; return;
  551. }
  552. if (MakeTask(A)) return;
  553. }
  554. if (ITASK!=FctInTask) return;
  555. }
  556. D_Cod++;
  557. ai = (int*)A;
  558. i = *ai++;
  559. ea = *ai++;
  560. Ea = *ai;
  561. if (ea) tellOnErr(A);
  562. C = (char*)A+(3*sizeof(int));
  563. D = C;
  564. F = C+i;
  565. n = sizeof(T);
  566. while (C <= F) {
  567. /* printf("execCod : %s %d - %x : %ld\n",
  568. codByAddr(A),(int)(C-D),*C,(long)*(C+1));
  569. */
  570. if (noErr() && ((C==F) || ((Code)*C != T_ONER)) ) { /* to find onerr: */
  571. if (ea && (OnErr==0)) {
  572. C = D+ea;
  573. } else {
  574. printf("Called in %s err=%d i=%d/%d cod=<%x>\n",
  575. codByAddr(A),noErr(),(int)(C-D),i,*C);
  576. if (InDebugFct==0) fprintf(stderr,
  577. "Called in %s err=%d i=%d/%d cod=<%x>\n",
  578. codByAddr(A),noErr(),(int)(C-D),i,*C);
  579. break; /* end of while */
  580. }
  581. }
  582. if (C==F) break; /* end of code */
  583. switch((Code)*C) {
  584. case T_ONER :
  585. if (noErr()==0) { /* jmp end: */
  586. if (Ea>ea) C = D+Ea;
  587. else C = F; /* to break */
  588. } else {
  589. if (OnErr==0) {
  590. OnErr=1;
  591. majLastErr(A);
  592. razErr();
  593. } else C = F;
  594. }
  595. break;
  596. case T_RET :
  597. C = F; /* to break */
  598. break;
  599. case T_END :
  600. break; /* nothing */
  601. case T_JEND :
  602. if (Ea) C = D+Ea;
  603. else C = F; /* to break */
  604. break;
  605. case T_NUM :
  606. bcopy((void*)(C+1),(void*)&T,n);
  607. insertVal(T);
  608. break;
  609. case T_CHA :
  610. bcopy((void*)(C+1),(void*)&W,n);
  611. putString(W);
  612. break;
  613. case T_LIB :
  614. if (InstallOn) {
  615. if (InstallOn < 3) {
  616. bcopy((void*)(C+1),(void*)&T,n);
  617. _MODIF_FCT_INST_(T);
  618. _MODIF_FCT_TYP_(1);
  619. } else {
  620. _MODIF_FCT_INST_(VIDE);
  621. _MODIF_FCT_TYP_(0);
  622. }
  623. InstallOn=0;
  624. } else {
  625. bcopy((void*)(C+1),(void*)&f,n);
  626. f();
  627. /* free context loops */
  628. if (Do_Evts) { /* quit or cut */
  629. /*printf("execCod T_LIB : Evts %d\n",Do_Evts);*/
  630. if (InDo) {
  631. if (Do_Evts>0) {
  632. C=ADo_Leave;
  633. I_DO--;
  634. InDo = 0;
  635. Do_Evts--;
  636. } else {
  637. C=ADo_Next;
  638. Do_Evts=0;
  639. }
  640. } else { /* quit */
  641. C = F;
  642. }
  643. }
  644. }
  645. break;
  646. case T_FCT :
  647. if (InstallOn) {
  648. if (InstallOn < 3) {
  649. bcopy((void*)(C+1),(void*)&T,n);
  650. T2=fctByCode(T);
  651. _MODIF_FCT_INST_(T2);
  652. _MODIF_FCT_TYP_(2);
  653. } else {
  654. _MODIF_FCT_INST_(VIDE);
  655. _MODIF_FCT_TYP_(0);
  656. }
  657. InstallOn=0;
  658. } else {
  659. bcopy((void*)(C+1),(void*)&T,n);
  660. execCod(T);
  661. /* free context loops */
  662. if (Do_Evts) { /* quit or cut */
  663. /*printf("execCod T_FCT : Evts %d\n",Do_Evts);*/
  664. if (InDo) {
  665. if (Do_Evts>0) {
  666. C=ADo_Leave;
  667. I_DO--;
  668. InDo = 0;
  669. Do_Evts--;
  670. } else {
  671. C=ADo_Next;
  672. Do_Evts=0;
  673. }
  674. } else { /* quit */
  675. C = F;
  676. }
  677. }
  678. }
  679. break;
  680. case T_FCTDS :
  681. case T_EXEKS :
  682. if ((S = getString()) != NULL)
  683. free((void*)S); /* remove the string */
  684. break;
  685. case T_FCTD :
  686. if ((S = getString()) != NULL)
  687. free((void*)S); /* remove the string */
  688. if (noErr()) break;
  689. case T_FCTDW :
  690. case T_FCTP :
  691. bcopy((void*)(C+1),(void*)&T,n);
  692. FR = (struct Fct *)T;
  693. execCod(FR->c);
  694. /* free context loops */
  695. if (Do_Evts) { /* quit or cut */
  696. /*printf("execCod T_FCTD : Evts %d\n",Do_Evts);*/
  697. if (InDo) {
  698. if (Do_Evts>0) {
  699. C=ADo_Leave;
  700. I_DO--;
  701. InDo = 0;
  702. Do_Evts--;
  703. } else {
  704. C=ADo_Next;
  705. Do_Evts=0;
  706. }
  707. } else { /* quit */
  708. C = F;
  709. }
  710. }
  711. if (*C == T_FCTP) {
  712. if (mFCTP) *C = T_FCTDW;
  713. else *C = T_FCTD;
  714. }
  715. break;
  716. case T_EXEK :
  717. if ((S = getString()) != NULL) {
  718. if (strlen(S)>0) { /* to do with T_FCTD */
  719. mFCTP=0;
  720. T = makeFunction(S);
  721. if (T != VIDE) {
  722. bcopy((void*)&T, (void*)(C+1),n);
  723. *C = T_FCTP;
  724. C -= (n+1);
  725. unlinkLastFct();
  726. /* upgrading precedent code ? not always ! */
  727. if (C >= D) {
  728. if (*C == T_CHA) { /* case of a string */
  729. *C = T_CHAS;
  730. mFCTP=1;
  731. }
  732. if (*C == T_VAR) { /* case of a variable string */
  733. bcopy((void*)(C+1),(void*)&W,n);
  734. if (isVarChar(W)) {
  735. *C = T_VARS;
  736. mFCTP=1;
  737. }
  738. }
  739. }
  740. } else /* error in compilation */
  741. *C = T_EXEKS;
  742. }
  743. free((void*)S);
  744. }
  745. break;
  746. case T_IF :
  747. if (!getBool()) {
  748. bcopy((void*)(C+1),(void*)&L,n);
  749. C += L;
  750. }
  751. break;
  752. case T_IFN :
  753. if (getBool()) {
  754. bcopy((void*)(C+1),(void*)&L,n);
  755. C += L;
  756. }
  757. break;
  758. case T_DO :
  759. I_DO++;
  760. InDo=1;
  761. /* maj do_adresses */
  762. W = C + (2*(n+1));
  763. bcopy((void*)(W+1),(void*)&L,n);
  764. ADo_Leave=D+L-n-1;
  765. ADo_Next=ADo_Leave-(2*(n+1));
  766. /* printf("execCod T_DO : AL= %d AN=%d\n",
  767. (int)(ADo_Leave-D), (int)(ADo_Next-D));*/
  768. getParLong(&P);
  769. D_DO[I_DO] = P;
  770. getParLong(&P);
  771. L_DO[I_DO] = P;
  772. if (P > D_DO[I_DO]) S_DO[I_DO]=0;
  773. else S_DO[I_DO]=1;
  774. break;
  775. case T_DO_I :
  776. IF_getIndDo(0);
  777. break;
  778. case T_DO_J :
  779. IF_getIndDo(1);
  780. break;
  781. case T_DO_K :
  782. IF_getIndDo(2);
  783. break;
  784. case T_IFD :
  785. if (S_DO[I_DO]) {
  786. if (D_DO[I_DO] > L_DO[I_DO]) {
  787. bcopy((void*)(C+1),(void*)&L,n);
  788. C += L;
  789. } else {
  790. I_DO--;
  791. InDo=0;
  792. }
  793. } else {
  794. if (D_DO[I_DO] < L_DO[I_DO]) {
  795. bcopy((void*)(C+1),(void*)&L,n);
  796. C += L;
  797. } else {
  798. I_DO--;
  799. InDo=0;
  800. }
  801. }
  802. break;
  803. case T_LOOP :
  804. if (S_DO[I_DO]) D_DO[I_DO]--;
  805. else D_DO[I_DO]++;
  806. break;
  807. case T_PLOO :
  808. getParLong(&P);
  809. D_DO[I_DO]+=P;
  810. break;
  811. case T_JMP :
  812. bcopy((void*)(C+1),(void*)&L,n);
  813. C += L;
  814. break;
  815. case T_GOTO :
  816. bcopy((void*)(C+1),(void*)&L,n);
  817. C = D + L - n-1;
  818. break;
  819. case T_VAR :
  820. if (InstallOn) {
  821. if (InstallOn == 3) {
  822. bcopy((void*)(C+1),(void*)&T,n);
  823. _MODIF_FCT_INST_(T);
  824. _MODIF_FCT_TYP_(3);
  825. } else {
  826. _MODIF_FCT_INST_(VIDE);
  827. _MODIF_FCT_TYP_(0);
  828. }
  829. InstallOn=0;
  830. } else {
  831. bcopy((void*)(C+1),(void*)&W,n);
  832. executeVar(W);
  833. /* free context loops */
  834. if (Do_Evts) { /* quit or cut */
  835. /*printf("execCod T_VAR : Evts %d\n",Do_Evts);*/
  836. if (InDo) {
  837. if (Do_Evts>0) {
  838. C=ADo_Leave;
  839. I_DO--;
  840. InDo = 0;
  841. Do_Evts--;
  842. } else {
  843. C=ADo_Next;
  844. Do_Evts=0;
  845. }
  846. } else { /* quit */
  847. C = F;
  848. }
  849. }
  850. }
  851. break;
  852. case T_BKC :
  853. bcopy((void*)(C+1),(void*)&W,n);
  854. execLib(W);
  855. break;
  856. case T_BKC1 : /* like makeFct */
  857. bcopy((void*)(C+1),(void*)&W,n);
  858. /* try to modify the code */
  859. if (VARS==2) { /* VARS UP */
  860. if ((T = varByName(W)) != VIDE) {
  861. *C = T_VAR;
  862. } else {
  863. if ((T = fctByName(W)) != VIDE) {
  864. *C = T_FCT;
  865. FR = (struct Fct *)T;
  866. T = FR->c;
  867. }
  868. }
  869. } else {
  870. if ((T = fctByName(W)) != VIDE) {
  871. *C = T_FCT;
  872. FR = (struct Fct *)T;
  873. T = FR->c;
  874. } else {
  875. if ((VARS==1) && ((T = varByName(W)) != VIDE)) {
  876. *C = T_VAR;
  877. }
  878. }
  879. }
  880. if ((Code)*C != T_BKC1) { /* code is updated */
  881. bcopy((void*)&T, (void*)(C+1),n);
  882. C-=(n+1); /* it must be executed */
  883. }
  884. break;
  885. case T_NOP :
  886. case T_CHAS :
  887. case T_VARS :
  888. case T_FCTDWS :
  889. break;
  890. default :
  891. messErr(11);
  892. }
  893. C+= n+1;
  894. }
  895. D_Cod--;
  896. if (ea) tellOnErr(VIDE);
  897. }
  898. void execFctV(void * A)
  899. {
  900. struct Fct * N;
  901. N = (struct Fct*) A;
  902. execCod(N->c);
  903. }
  904. int IF_execFct(char * L)
  905. {
  906. void * Next;
  907. struct Fct * N;
  908. Next = stackF;
  909. while (Next != VIDE) {
  910. N = (struct Fct*) Next;
  911. if (strcmp(N->l,L)==0) {
  912. if (fctEnCours) makeFct(T_FCT,N->c);
  913. else execCod(N->c);
  914. return 1;
  915. }
  916. Next = N->n;
  917. }
  918. return 0;
  919. }
  920. void * fctByName(char * L)
  921. {
  922. void * Next;
  923. struct Fct * N;
  924. Next = stackF;
  925. while (Next != VIDE) {
  926. N = (struct Fct*) Next;
  927. if (strcmp(N->l,L)==0) return Next;
  928. Next = N->n;
  929. }
  930. return VIDE;
  931. }
  932. void * codFctByInd(long i)
  933. {
  934. void * Next;
  935. struct Fct * N;
  936. long j=0;
  937. Next = stackF;
  938. while (Next != VIDE) {
  939. N = (struct Fct*) Next;
  940. j++;
  941. if (i==j) return (N->c);
  942. Next = N->n;
  943. }
  944. return VIDE;
  945. }
  946. void * fctByInd(long i)
  947. {
  948. void * Next;
  949. struct Fct * N;
  950. long j=0;
  951. Next = stackF;
  952. while (Next != VIDE) {
  953. N = (struct Fct*) Next;
  954. j++;
  955. if (i==j) return Next;
  956. Next = N->n;
  957. }
  958. return VIDE;
  959. }
  960. void * fctByCode(void * C)
  961. {
  962. void * Next;
  963. struct Fct * N;
  964. Next = stackF;
  965. while (Next != VIDE) {
  966. N = (struct Fct*) Next;
  967. if (N->c==C) return Next;
  968. Next = N->n;
  969. }
  970. return VIDE;
  971. }
  972. static void rmFct(char * L)
  973. {
  974. void ** PNext;
  975. struct Fct * N;
  976. dropTrSuite();
  977. PNext = &stackF;
  978. while (*PNext != VIDE) {
  979. N = (struct Fct*) *PNext;
  980. if (N->typ==0)
  981. if (strcmp(N->l,L)==0) {
  982. *PNext = N->n;
  983. eraseFct(N);
  984. return;
  985. }
  986. PNext = &N->n;
  987. }
  988. messErr(21);
  989. }
  990. static void rmAFct(char * L)
  991. {
  992. void ** PNext;
  993. struct Fct * N;
  994. dropTrSuite();
  995. PNext = &stackF;
  996. while (*PNext != VIDE) {
  997. N = (struct Fct*) *PNext;
  998. if ((N->typ==0) && (strncmp(N->l,L,strlen(L))==0)) {
  999. *PNext = N->n;
  1000. eraseFct(N);
  1001. }
  1002. else PNext = &N->n;
  1003. }
  1004. }
  1005. static void rmOFct(char * L)
  1006. {
  1007. void ** PNext, ** FP;
  1008. struct Fct * N, * F;
  1009. dropTrSuite();
  1010. F = VIDE;
  1011. PNext = &stackF;
  1012. while (*PNext != VIDE) {
  1013. N = (struct Fct*) *PNext;
  1014. if (N->typ==0)
  1015. if (strcmp(N->l,L)==0) {
  1016. FP = PNext;
  1017. F = N;
  1018. }
  1019. PNext = &N->n;
  1020. }
  1021. if (F != VIDE) {
  1022. *FP = F->n;
  1023. eraseFct(F);
  1024. }
  1025. else messErr(21);
  1026. }
  1027. char * fctByAddr(void * A)
  1028. {
  1029. void * Next;
  1030. struct Fct * N;
  1031. Next = stackF;
  1032. while (Next != VIDE) {
  1033. N = (struct Fct*) Next;
  1034. if (Next==A) return N->l;
  1035. Next = N->n;
  1036. }
  1037. return NULL;
  1038. }
  1039. long iFctByCode(void * A)
  1040. {
  1041. void * Next;
  1042. struct Fct * N;
  1043. long i=0;
  1044. Next = stackF;
  1045. while (Next != VIDE) {
  1046. i++;
  1047. N = (struct Fct*) Next;
  1048. if (N->c==A) return i;
  1049. Next = N->n;
  1050. }
  1051. return 0L;
  1052. }
  1053. long iFctByAddr(void * A)
  1054. {
  1055. void * Next;
  1056. struct Fct * N;
  1057. long i=0;
  1058. Next = stackF;
  1059. while (Next != VIDE) {
  1060. i++;
  1061. N = (struct Fct*) Next;
  1062. if (Next==A) return i;
  1063. Next = N->n;
  1064. }
  1065. return 0L;
  1066. }
  1067. char * codByAddr(void * A)
  1068. {
  1069. void * Next;
  1070. struct Fct * N;
  1071. Next = stackF;
  1072. while (Next != VIDE) {
  1073. N = (struct Fct*) Next;
  1074. if (N->c==A) return N->l;
  1075. Next = N->n;
  1076. }
  1077. return NULL;
  1078. }
  1079. void prMarge(int n)
  1080. {
  1081. int N, i;
  1082. N = n*3;
  1083. for(i=0;i<N;i++) printf(" ");
  1084. }
  1085. static void scanFoncI(void * AdF, int marge)
  1086. {
  1087. void *A, *W;
  1088. struct Fct * N;
  1089. int i,n, ea, Ea, *ai;
  1090. long L;
  1091. char * C, *F, *D, lm[6];
  1092. N = (struct Fct *)AdF;
  1093. *lm = '\0';
  1094. A = N->c;
  1095. ai = (int*)A;
  1096. i = *ai++;
  1097. ea = *ai++;
  1098. Ea = *ai;
  1099. C = (char*)A+(3*sizeof(int));
  1100. D = C;
  1101. F = C+i;
  1102. n = sizeof(A);
  1103. if (marge) prMarge(marge);
  1104. if (N->typ) printf ("System ");
  1105. printf("Fonction : %s (%d) : 0x%lx\n", N->l, i, (unsigned long)A );
  1106. if (ea+Ea) {
  1107. if (ea) printf("Catching error at %d",ea);
  1108. if (Ea) {
  1109. if (ea) printf(" - ");
  1110. printf("End label at %d",Ea);
  1111. }
  1112. printf("\n");
  1113. }
  1114. while (C < F) {
  1115. if (marge) prMarge(marge);
  1116. printf(" %.4d : ",(int)(C-D));
  1117. switch((Code)*C) {
  1118. case T_NOP :
  1119. case T_CHAS :
  1120. case T_VARS :
  1121. case T_FCTDWS :
  1122. printf("NOP\n");
  1123. break;
  1124. case T_FCTDS :
  1125. case T_EXEKS :
  1126. printf("\"drop\n");
  1127. break;
  1128. case T_RET :
  1129. printf("RETURN\n");
  1130. break;
  1131. case T_ONER :
  1132. printf("onerr: label\n");
  1133. break;
  1134. case T_END :
  1135. printf("end: label\n");
  1136. break;
  1137. case T_JEND :
  1138. printf("goto end:\n");
  1139. break;
  1140. case T_NUM :
  1141. bcopy((void*)(C+1),(void*)&W,n);
  1142. printf("Number value : ");
  1143. printNumber(W);
  1144. printf("\n");
  1145. break;
  1146. case T_CHA :
  1147. bcopy((void*)(C+1),(void*)&W,n);
  1148. printf("Character String \"%s\"\n",(char*)W);
  1149. break;
  1150. case T_LIB :
  1151. bcopy((void*)(C+1),(void*)&W,n);
  1152. printf("Call to library : %s\n", libByAddr(W));
  1153. break;
  1154. case T_FCT :
  1155. bcopy((void*)(C+1),(void*)&W,n);
  1156. printf("Function : %s\n", codByAddr(W));
  1157. break;
  1158. case T_FCTD :
  1159. printf("\"drop + ");
  1160. case T_FCTDW :
  1161. bcopy((void*)(C+1),(void*)&W,n);
  1162. N = (struct Fct *)W;
  1163. printf("Dynamic Function at 0x%lx\n", (long)W);
  1164. scanFoncI(W,marge+1);
  1165. break;
  1166. case T_IF :
  1167. bcopy((void*)(C+1),(void*)&L,n);
  1168. printf("IF false goto %ld\n",(C-D)+L+n+1);
  1169. break;
  1170. case T_DO :
  1171. printf("DO [ LIMIT I -- ]\n");
  1172. break;
  1173. case T_DO_I :
  1174. printf("GET I [ -- I ]\n");
  1175. break;
  1176. case T_DO_J :
  1177. printf("GET J [ -- J ]\n");
  1178. break;
  1179. case T_DO_K :
  1180. printf("GET K [ -- K ]\n");
  1181. break;
  1182. case T_LOOP :
  1183. printf("I=+/-1\n");
  1184. break;
  1185. case T_PLOO :
  1186. printf("I += V [ V -- ]\n");
  1187. break;
  1188. case T_IFN :
  1189. bcopy((void*)(C+1),(void*)&L,n);
  1190. printf("IF true goto %ld\n",(C-D)+L+n+1);
  1191. break;
  1192. case T_IFD :
  1193. bcopy((void*)(C+1),(void*)&L,n);
  1194. printf("IF (LIMIT NOT REACHED) goto %ld\n",(C-D)+L+n+1);
  1195. break;
  1196. case T_JMP :
  1197. bcopy((void*)(C+1),(void*)&L,n);
  1198. printf("JMP $+%ld\n",L);
  1199. break;
  1200. case T_GOTO :
  1201. bcopy((void*)(C+1),(void*)&L,n);
  1202. printf("GOTO %ld\n",L);
  1203. break;
  1204. case T_EXEK :
  1205. printf("Dynamic Compile (\"execk) !\n");
  1206. break;
  1207. case T_VAR :
  1208. bcopy((void*)(C+1),(void*)&W,n);
  1209. printf("Call variable : %s\n", varByAddr(W));
  1210. break;
  1211. case T_BKC1 :
  1212. strcpy(lm,"1st ");
  1213. case T_BKC :
  1214. bcopy((void*)(C+1),(void*)&W,n);
  1215. printf("Back Compile %s: \"%s\"\n",lm, (char*)W);
  1216. break;
  1217. default :
  1218. printf("0x%x : code inconnu !!\n",(int)*C);
  1219. }
  1220. C+= n+1;
  1221. }
  1222. }
  1223. static void scanFonc(char * Lib)
  1224. {
  1225. void ** PNext;
  1226. struct Fct * N;
  1227. dropTrSuite();
  1228. PNext = &stackF;
  1229. while (*PNext != VIDE) {
  1230. N = (struct Fct*) *PNext;
  1231. if (strcmp(N->l,Lib)==0) break;
  1232. PNext = &N->n;
  1233. }
  1234. if (strcmp(N->l,Lib)!=0) {
  1235. messErr(21);
  1236. return;
  1237. }
  1238. scanFoncI((void*)N ,0);
  1239. }
  1240. void IF_execCS(void)
  1241. {
  1242. char * f;
  1243. f = getString();
  1244. if (f != NULL) {
  1245. if (!IF_execFct(f)) {
  1246. printf("%s - ",f); messErr(21);
  1247. }
  1248. free((void*)f);
  1249. }
  1250. }
  1251. void IF_execCSl(void)
  1252. {
  1253. char * f;
  1254. f = getString();
  1255. if (f != NULL) {
  1256. if (IF_execFct(f)) putBool(TRUE);
  1257. else putBool(FALSE);
  1258. free((void*)f);
  1259. }
  1260. else putBool(FALSE);
  1261. }
  1262. void IF_execCSv(void)
  1263. {
  1264. char * f;
  1265. f = getString();
  1266. if (f != NULL) {
  1267. if (!IF_execVar(f)) {
  1268. printf("%s - ",f); messErr(24);
  1269. }
  1270. free((void*)f);
  1271. }
  1272. }
  1273. void IF_execCSvl(void)
  1274. {
  1275. char * f;
  1276. f = getString();
  1277. if (f != NULL) {
  1278. if (IF_execVar(f)) putBool(TRUE);
  1279. else putBool(FALSE);
  1280. free((void*)f);
  1281. }
  1282. else putBool(FALSE);
  1283. }
  1284. void IF_delFct(void)
  1285. {
  1286. putTrSuite(rmFct);
  1287. }
  1288. void IF_delAFct(void)
  1289. {
  1290. putTrSuite(rmAFct);
  1291. }
  1292. void IF_delOFct(void)
  1293. {
  1294. putTrSuite(rmOFct);
  1295. }
  1296. void IF_scanFct(void)
  1297. {
  1298. putTrSuite(scanFonc);
  1299. }
  1300. static void IF_instruct(Code C)
  1301. {
  1302. if (fctEnCours) makeFct(C,NULL);
  1303. else messErr(13);
  1304. }
  1305. void IF_RET(void) { IF_instruct(T_RET); }
  1306. void IF_IF(void) { IF_instruct(T_IF); }
  1307. void IF_THEN(void) { IF_instruct(T_THEN); }
  1308. void IF_ELSE(void) { IF_instruct(T_ELSE); }
  1309. void IF_BEGIN(void) { IF_instruct(T_BEGI); }
  1310. void IF_AGAIN(void) { IF_instruct(T_AGAI); }
  1311. void IF_UNTIL(void) { IF_instruct(T_UNTI); }
  1312. void IF_WHILE(void) { IF_instruct(T_WHIL); }
  1313. void IF_REPEAT(void) { IF_instruct(T_REPE); }
  1314. void IF_BREAK(void) { IF_instruct(T_BREA); }
  1315. void IF_MYSELF(void) { IF_instruct(T_MYSF); }
  1316. void IF_DO(void) { IF_instruct(T_DO); }
  1317. void IF_LOOP(void) { IF_instruct(T_LOOP); }
  1318. void IF_PLOOP(void) { IF_instruct(T_PLOO); }
  1319. void IF_I_DO(void) { IF_instruct(T_DO_I); }
  1320. void IF_J_DO(void) { IF_instruct(T_DO_J); }
  1321. void IF_K_DO(void) { IF_instruct(T_DO_K); }
  1322. void IF_ONERR(void) { IF_instruct(T_ONER); }
  1323. void IF_END(void) { IF_instruct(T_END); }
  1324. void IF_JEND(void) { IF_instruct(T_JEND); }
  1325. void IF_EXEK(void) { IF_instruct(T_EXEK); }
  1326. /* code for back compilation of calling functions and variables */
  1327. void suiteBackC(char *S)
  1328. {
  1329. void * M;
  1330. dropTrSuite();
  1331. if (strlen(S) > LDFLT) {
  1332. messErr(9);
  1333. return;
  1334. }
  1335. if (S[strlen(S)-1] != '\'') {
  1336. messErr(44);
  1337. return;
  1338. }
  1339. S[strlen(S)-1] = '\0';
  1340. if ((M = malloc(strlen(S)+1)) == NULL) stopErr("suiteBackC","malloc");
  1341. #ifdef DEBUG_M
  1342. printf("New String address : %lu \n",(unsigned long)M);
  1343. #endif
  1344. strcpy((char*)M,S);
  1345. if (fctEnCours) makeFct(T_BKC,M);
  1346. else messErr(13);
  1347. }
  1348. void IF_debBackC(void)
  1349. {
  1350. putTrSuite(suiteBackC);
  1351. }
  1352. void suiteBackC1(char *S)
  1353. {
  1354. void * M;
  1355. dropTrSuite();
  1356. if (strlen(S) > LDFLT) {
  1357. messErr(9);
  1358. return;
  1359. }
  1360. if (S[strlen(S)-1] != '`') {
  1361. messErr(44);
  1362. return;
  1363. }
  1364. S[strlen(S)-1] = '\0';
  1365. if ((M = malloc(strlen(S)+1)) == NULL) stopErr("suiteBackC1","malloc");
  1366. #ifdef DEBUG_M
  1367. printf("New String address : %lu \n",(unsigned long)M);
  1368. #endif
  1369. strcpy((char*)M,S);
  1370. if (fctEnCours) makeFct(T_BKC1,M);
  1371. else messErr(13);
  1372. }
  1373. void IF_debBackC1(void)
  1374. {
  1375. putTrSuite(suiteBackC1);
  1376. }
  1377. void dump_code(int fd, char * C)
  1378. {
  1379. void * A;
  1380. uint32_t i;
  1381. write(fd, C, 1);
  1382. bcopy((void*)(C+1),(void*)&A,sizeof(A));
  1383. switch((Code)*C) {
  1384. case T_ONER :
  1385. case T_RET :
  1386. case T_END :
  1387. case T_JEND :
  1388. case T_NOP :
  1389. case T_DO_I :
  1390. case T_DO_J :
  1391. case T_DO_K :
  1392. case T_LOOP :
  1393. case T_PLOO :
  1394. case T_EXEK :
  1395. break; /* nothing */
  1396. case T_NUM :
  1397. dump_eltN(fd, A, 0);
  1398. break;
  1399. case T_CHA :
  1400. case T_BKC :
  1401. case T_BKC1 :
  1402. dump_eltC(fd, (char*)A);
  1403. break;
  1404. case T_LIB :
  1405. i = iLibByAddr(A);
  1406. write(fd, (void*)&i, sizeof(i));
  1407. break;
  1408. case T_FCT :
  1409. i = iFctByCode(A);
  1410. write(fd, (void*)&i, sizeof(i));
  1411. break;
  1412. case T_VAR :
  1413. i = iVarByAddr(A);
  1414. write(fd, (void*)&i, sizeof(i));
  1415. break;
  1416. case T_IF :
  1417. case T_IFN :
  1418. case T_DO :
  1419. case T_IFD :
  1420. case T_JMP :
  1421. case T_GOTO :
  1422. bcopy((void*)(C+1),(void*)&i,sizeof(i));
  1423. write(fd, (void*)&i, sizeof(i));
  1424. break;
  1425. /* en principe pas possible !!!
  1426. case T_FCTP :
  1427. i = iFctByAddr(A);
  1428. write(fd, (void*)&i, sizeof(i));
  1429. break;
  1430. *********************/
  1431. default :
  1432. printf("dump_code : Code %d inconnu !\n",(int)(*C));
  1433. messErr(58);
  1434. }
  1435. }
  1436. void dump_stackF(int fd)
  1437. {
  1438. uint32_t n=0, vv;
  1439. long v, vi, i, j, pas, t;
  1440. int *av;
  1441. void *Next, *A;
  1442. struct Fct * N;
  1443. char * C, *F;
  1444. Next = stackF;
  1445. while (Next != VIDE) {
  1446. N = (struct Fct*) Next;
  1447. n++;
  1448. Next = N->n;
  1449. }
  1450. write(fd, (void*)&n, sizeof(n));
  1451. t = sizeof(A) + 1;
  1452. for (i=n; i>0; i--) {
  1453. Next = stackF;
  1454. j=0;
  1455. while (Next != VIDE) {
  1456. N = (struct Fct*) Next;
  1457. j++;
  1458. if (i==j) break;
  1459. Next = N->n;
  1460. }
  1461. updDynFct(Next,0);
  1462. write(fd, (void*)&(N->typ), sizeof(N->typ));
  1463. dump_eltC(fd, N->l);
  1464. A = N->c;
  1465. av = (int*)A;
  1466. vi = (long)*av++; /* i */
  1467. vv = vi / t;
  1468. write(fd, (void*)&vv, sizeof(vv));
  1469. v = (long)*av++; /* ea */
  1470. vv = v / t;
  1471. write(fd, (void*)&vv, sizeof(vv));
  1472. v = (long)*av++; /* Ea */
  1473. vv = v / t;
  1474. write(fd, (void*)&vv, sizeof(vv));
  1475. C = (char*)A+(3*sizeof(int));
  1476. F = C+vi;
  1477. pas = sizeof(A) + 1;
  1478. while (C < F) {
  1479. dump_code(fd, C);
  1480. C += pas;
  1481. }
  1482. }
  1483. dump_rest_pr(0,n,"user functions");
  1484. }
  1485. void restore_links_stackF(void)
  1486. {
  1487. void **ANext, *A;
  1488. return;
  1489. }
  1490. static int NbARIV, NbARIL, NbARIF;
  1491. void restore_code(int fd, char * b, long delta)
  1492. {
  1493. void * A;
  1494. uint32_t i;
  1495. int nc;
  1496. if ((read(fd, (void*)b, 1)) != 1) return;
  1497. switch((Code)*b) {
  1498. case T_NUM :
  1499. A = restore_eltN(fd);
  1500. bcopy((void*)(&A),(void*)(b+1),sizeof(A));
  1501. break;
  1502. case T_CHA :
  1503. case T_BKC :
  1504. case T_BKC1 :
  1505. A = (void*)restore_eltC(fd);
  1506. bcopy((void*)(&A),(void*)(b+1),sizeof(A));
  1507. break;
  1508. case T_LIB :
  1509. nc = read(fd, (void*)&i, sizeof(i));
  1510. A = libByInd(i);
  1511. bcopy((void*)(&A),(void*)(b+1),sizeof(A));
  1512. NbARIL++;
  1513. break;
  1514. case T_FCT :
  1515. nc = read(fd, (void*)&i, sizeof(i));
  1516. A = codFctByInd(i-delta);
  1517. /* printf("i=%d delta=%d A=%lx\n",i,delta,(long)A); */
  1518. bcopy((void*)(&A),(void*)(b+1),sizeof(A));
  1519. NbARIF++;
  1520. break;
  1521. case T_VAR :
  1522. nc = read(fd, (void*)&i, sizeof(i));
  1523. A = varAddrByInd(i);
  1524. bcopy((void*)(&A),(void*)(b+1),sizeof(A));
  1525. NbARIV++;
  1526. break;
  1527. case T_IF :
  1528. case T_IFN :
  1529. case T_DO :
  1530. case T_IFD :
  1531. case T_JMP :
  1532. case T_GOTO :
  1533. nc = read(fd, (void*)&i, sizeof(i));
  1534. bcopy((void*)(&i),(void*)(b+1),sizeof(i));
  1535. break;
  1536. default :
  1537. break;
  1538. }
  1539. /* printf("\tCODE=%d i=%d\n", (int)*b, (int)i); */
  1540. }
  1541. void restore_stackF(int fd)
  1542. {
  1543. uint32_t n=0, vv;
  1544. long i, vi, v, pas, t;
  1545. short typ;
  1546. char *Lib, *C, *F;
  1547. void * M;
  1548. struct Fct *Elt;
  1549. int *bi, nc;
  1550. if (read(fd, (void*)&n, sizeof(n)) != sizeof(n)) return;
  1551. /* suppress all fcts */
  1552. rmAllFonU();
  1553. while (stackF != VIDE) {
  1554. Elt = (struct Fct *)stackF;
  1555. stackF = Elt->n;
  1556. eraseFct(Elt);
  1557. }
  1558. /* printf("Nb fct : %d\n", n); */
  1559. NbARIV=NbARIF=NbARIL=0;
  1560. t = sizeof(M) + 1;
  1561. for (i=0; i<n; i++) {
  1562. nc = read(fd, (void*)&typ, sizeof(typ));
  1563. Lib = restore_eltC(fd);
  1564. initFct(Lib,typ);
  1565. nc=read(fd, (void*)&vv, sizeof(vv));
  1566. vi = vv * t;
  1567. if ((M = malloc((3*sizeof(int))+vi)) == NULL)
  1568. stopErr("restore_stackF","malloc");
  1569. bi = (int*)M;
  1570. *bi++ = (int)vi;
  1571. nc=read(fd, (void*)&vv, sizeof(vv));
  1572. v = vv * t;
  1573. *bi++ = (int)v;
  1574. /* printf("Nom=<%s> type=%d vi=%d v1=%d", Lib, typ, (int)vi, (int)v); */
  1575. nc=read(fd, (void*)&vv, sizeof(vv));
  1576. v = vv * t;
  1577. *bi = (int)v;
  1578. /* printf(" v2=%d\n", (int)v); */
  1579. C = (char*)M+(3*sizeof(int));
  1580. F = C+vi;
  1581. pas = sizeof(M) + 1;
  1582. putCodeFct(M);
  1583. while (C < F) {
  1584. restore_code(fd, C, n-(i+1));
  1585. C += pas;
  1586. }
  1587. }
  1588. dump_rest_pr(1,n,"user functions");
  1589. rest_links_pr(NbARIV, "variable", "user functions");
  1590. rest_links_pr(NbARIL, "library function", "user functions");
  1591. rest_links_pr(NbARIF, "user function", "user functions");
  1592. }