Annotation of rpl/src/analyse.c, revision 1.117
1.1 bertrand 1: /*
2: ================================================================================
1.117 ! bertrand 3: RPL/2 (R) version 4.1.33
! 4: Copyright (C) 1989-2021 Dr. BERTRAND Joël
1.1 bertrand 5:
6: This file is part of RPL/2.
7:
8: RPL/2 is free software; you can redistribute it and/or modify it
9: under the terms of the CeCILL V2 License as published by the french
10: CEA, CNRS and INRIA.
11:
12: RPL/2 is distributed in the hope that it will be useful, but WITHOUT
13: ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
14: FITNESS FOR A PARTICULAR PURPOSE. See the CeCILL V2 License
15: for more details.
16:
17: You should have received a copy of the CeCILL License
18: along with RPL/2. If not, write to info@cecill.info.
19: ================================================================================
20: */
21:
22:
1.25 bertrand 23: #include "rpl-conv.h"
1.1 bertrand 24:
25:
26: /*
27: ================================================================================
1.3 bertrand 28: Analyseur syntaxique de l'interprète RPL/2
1.1 bertrand 29: ================================================================================
30: Entrées :
31: --------------------------------------------------------------------------------
32: Sorties :
33: --------------------------------------------------------------------------------
34: Effets de bord : néant
35: ================================================================================
36: */
37:
38: static void
39: creation_instruction(struct_processus *s_etat_processus,
40: unsigned char *instruction, void (*routine)())
41: {
42: int i;
43:
44: struct_instruction *l_instruction_courante;
45:
46: unsigned char *ptr;
47:
1.14 bertrand 48: BUG(strlen(instruction) >= d_longueur_maximale_instruction,
49: printf("%s -> %d >= %d\n", instruction, (int) strlen(instruction),
50: d_longueur_maximale_instruction));
51:
1.1 bertrand 52: if ((*s_etat_processus).arbre_instructions == NULL)
53: {
54: if (((*s_etat_processus).arbre_instructions =
55: malloc(sizeof(struct_instruction))) == NULL)
56: {
57: (*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
58: return;
59: }
60:
61: (*(*s_etat_processus).arbre_instructions).feuille = NULL;
62:
1.41 bertrand 63: if (((*(*s_etat_processus).arbre_instructions).noeuds =
1.82 bertrand 64: malloc(((size_t) (*s_etat_processus).nombre_caracteres)
1.1 bertrand 65: * sizeof(struct_instruction))) == NULL)
66: {
67: (*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
68: return;
69: }
70:
71: for(i = 0; i < (*s_etat_processus).nombre_caracteres; i++)
72: {
1.41 bertrand 73: (*(*s_etat_processus).arbre_instructions).noeuds[i] = NULL;
1.1 bertrand 74: }
75: }
76:
77: l_instruction_courante = (*s_etat_processus).arbre_instructions;
78: ptr = instruction;
79:
80: while((*ptr) != d_code_fin_chaine)
81: {
82: BUG((*s_etat_processus).pointeurs_caracteres[*ptr] < 0,
83: printf("Instruction=\"%s\", (*ptr)='%c'\n",
84: instruction, *ptr));
85:
1.41 bertrand 86: if ((*l_instruction_courante).noeuds[(*s_etat_processus)
1.1 bertrand 87: .pointeurs_caracteres[*ptr]] == NULL)
88: {
89: // Le noeud suivant n'existe pas, on le crée.
90:
1.41 bertrand 91: if (((*l_instruction_courante).noeuds[(*s_etat_processus)
1.1 bertrand 92: .pointeurs_caracteres[*ptr]] =
93: malloc(sizeof(struct_instruction))) == NULL)
94: {
95: (*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
96: return;
97: }
98:
1.41 bertrand 99: (*(*l_instruction_courante).noeuds[(*s_etat_processus)
1.1 bertrand 100: .pointeurs_caracteres[*ptr]]).feuille = NULL;
101:
1.41 bertrand 102: if (((*(*l_instruction_courante).noeuds[(*s_etat_processus)
103: .pointeurs_caracteres[*ptr]]).noeuds =
1.82 bertrand 104: malloc(((size_t) (*s_etat_processus).nombre_caracteres)
1.1 bertrand 105: * sizeof(struct_instruction))) == NULL)
106: {
107: (*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
108: return;
109: }
110:
111: for(i = 0; i < (*s_etat_processus).nombre_caracteres; i++)
112: {
1.41 bertrand 113: (*(*l_instruction_courante).noeuds[(*s_etat_processus)
114: .pointeurs_caracteres[*ptr]]).noeuds[i] = NULL;
1.1 bertrand 115: }
116: }
117:
1.41 bertrand 118: l_instruction_courante = (*l_instruction_courante).noeuds
1.1 bertrand 119: [(*s_etat_processus).pointeurs_caracteres[*ptr]];
120: ptr++;
121: }
122:
123: BUG((*l_instruction_courante).feuille != NULL,
124: printf("Instruction=\"%s\"\n", instruction));
125:
126: (*l_instruction_courante).feuille = routine;
127:
128: return;
129: }
130:
131:
132: void
133: liberation_arbre_instructions(struct_processus *s_etat_processus,
134: struct_instruction *arbre)
135: {
136: int i;
137:
138: for(i = 0; i < (*s_etat_processus).nombre_caracteres; i++)
139: {
1.41 bertrand 140: if ((*arbre).noeuds[i] != NULL)
1.1 bertrand 141: {
1.41 bertrand 142: liberation_arbre_instructions(s_etat_processus, (*arbre).noeuds[i]);
1.1 bertrand 143: }
144: }
145:
1.41 bertrand 146: free((*arbre).noeuds);
1.1 bertrand 147: free(arbre);
148:
149: return;
150: }
151:
152:
153: /*
154: * Caractères autorisés dans les instructions
155: *
156: * A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
157: * e i (mais traités comme des majuscules grâce à 'instruction_*_sensible()'
158: * + - * / % ^ < > = ? 1 2
159: */
160:
161: void
162: initialisation_instructions(struct_processus *s_etat_processus)
163: {
164: int decalage;
165: int i;
166: int longueur_tableau;
167:
168: unsigned char caractere;
169:
170: // Récupération de la longueur d'un unsigned char
171:
172: longueur_tableau = 1;
173: decalage = 0;
174: caractere = 1;
175:
176: while((1L << decalage) == (long) ((unsigned char) (caractere << decalage)))
177: {
178: decalage++;
179: longueur_tableau *= 2;
180: }
181:
182: if (((*s_etat_processus).pointeurs_caracteres =
1.82 bertrand 183: malloc(((size_t) longueur_tableau * sizeof(int)))) == NULL)
1.1 bertrand 184: {
185: (*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
186: return;
187: }
188:
189: for(i = 0; i < longueur_tableau; i++)
190: {
191: (*s_etat_processus).pointeurs_caracteres[i] = -1;
192: }
193:
194: (*s_etat_processus).nombre_caracteres = 0;
195:
196: #define DECLARATION_CARACTERE(c) \
197: do { (*s_etat_processus).pointeurs_caracteres[c] = \
198: (*s_etat_processus).nombre_caracteres++; } while(0)
199:
200: DECLARATION_CARACTERE('A');
201: DECLARATION_CARACTERE('B');
202: DECLARATION_CARACTERE('C');
203: DECLARATION_CARACTERE('D');
204: DECLARATION_CARACTERE('E');
205: DECLARATION_CARACTERE('F');
206: DECLARATION_CARACTERE('G');
207: DECLARATION_CARACTERE('H');
208: DECLARATION_CARACTERE('I');
209: DECLARATION_CARACTERE('J');
210: DECLARATION_CARACTERE('K');
211: DECLARATION_CARACTERE('L');
212: DECLARATION_CARACTERE('M');
213: DECLARATION_CARACTERE('N');
214: DECLARATION_CARACTERE('O');
215: DECLARATION_CARACTERE('P');
216: DECLARATION_CARACTERE('Q');
217: DECLARATION_CARACTERE('R');
218: DECLARATION_CARACTERE('S');
219: DECLARATION_CARACTERE('T');
220: DECLARATION_CARACTERE('U');
221: DECLARATION_CARACTERE('V');
222: DECLARATION_CARACTERE('W');
223: DECLARATION_CARACTERE('X');
224: DECLARATION_CARACTERE('Y');
225: DECLARATION_CARACTERE('Z');
226: DECLARATION_CARACTERE('+');
227: DECLARATION_CARACTERE('-');
228: DECLARATION_CARACTERE('/');
229: DECLARATION_CARACTERE('*');
230: DECLARATION_CARACTERE('%');
231: DECLARATION_CARACTERE('^');
232: DECLARATION_CARACTERE('<');
233: DECLARATION_CARACTERE('>');
234: DECLARATION_CARACTERE('=');
235: DECLARATION_CARACTERE('?');
236: DECLARATION_CARACTERE('1');
237: DECLARATION_CARACTERE('2');
238:
239: #undef DECLARATION_CARACTERE
240:
241: #define INSTRUCTION(chaine, fonction) \
242: creation_instruction(s_etat_processus, chaine, fonction)
243:
244: INSTRUCTION("E", instruction_sensible_e);
245: INSTRUCTION("I", instruction_sensible_i);
246: INSTRUCTION("+", instruction_plus);
247: INSTRUCTION("-", instruction_moins);
248: INSTRUCTION("*", instruction_multiplication);
249: INSTRUCTION("/", instruction_division);
250: INSTRUCTION("%", instruction_pourcent);
251: INSTRUCTION("^", instruction_puissance);
252: INSTRUCTION("<", instruction_lt);
253: INSTRUCTION("=", instruction_egalite);
254: INSTRUCTION(">", instruction_gt);
255:
256: INSTRUCTION("CF", instruction_cf);
257: INSTRUCTION("CR", instruction_cr);
258: INSTRUCTION("DO", instruction_do);
259: INSTRUCTION("FP", instruction_fp);
260: INSTRUCTION("IF", instruction_if);
261: INSTRUCTION("IM", instruction_im);
262: INSTRUCTION("IN", instruction_in);
263: INSTRUCTION("IP", instruction_ip);
264: INSTRUCTION("LN", instruction_ln);
265: INSTRUCTION("LQ", instruction_lq);
266: INSTRUCTION("LU", instruction_lu);
267: INSTRUCTION("NS", instruction_ns);
268: INSTRUCTION("OR", instruction_or);
269: INSTRUCTION("PI", instruction_pi);
270: INSTRUCTION("QR", instruction_qr);
271: INSTRUCTION("RE", instruction_re);
272: INSTRUCTION("RL", instruction_rl);
273: INSTRUCTION("RR", instruction_rr);
274: INSTRUCTION("SF", instruction_sf);
275: INSTRUCTION("SL", instruction_sl);
276: INSTRUCTION("SQ", instruction_sq);
277: INSTRUCTION("SR", instruction_sr);
278: INSTRUCTION("SX", instruction_sx);
279: INSTRUCTION("SY", instruction_sy);
280: INSTRUCTION("S+", instruction_s_plus);
281: INSTRUCTION("S-", instruction_s_moins);
282: INSTRUCTION("->", instruction_fleche);
283: INSTRUCTION("*D", instruction_star_d);
284: INSTRUCTION("*H", instruction_star_h);
285: INSTRUCTION("*S", instruction_star_s);
286: INSTRUCTION("*W", instruction_star_w);
287: INSTRUCTION("**", instruction_puissance);
288: INSTRUCTION("%T", instruction_pourcent_t);
289: INSTRUCTION("<=", instruction_le);
290: INSTRUCTION("<<", instruction_vers_niveau_superieur);
291: INSTRUCTION("<>", instruction_ne);
292: INSTRUCTION("==", instruction_same);
293: INSTRUCTION("=>", instruction_ge);
294: INSTRUCTION("=<", instruction_le);
295: INSTRUCTION(">=", instruction_ge);
296: INSTRUCTION(">>", instruction_vers_niveau_inferieur);
297:
298: INSTRUCTION("ABS", instruction_abs);
299: INSTRUCTION("AND", instruction_and);
300: //INSTRUCTION("ARC")
301: //(centre, rayon, theta1, theta2 dans le sens trigonométrique)
302: INSTRUCTION("ARG", instruction_arg);
303: INSTRUCTION("ASL", instruction_asl);
304: INSTRUCTION("ASR", instruction_asr);
305: //INSTRUCTION("BAR")
306: //Instruction HP48 (sélectionne le type de graphique à barres)
307: //Chaque point est représenté par une barre verticale.
308: INSTRUCTION("BIN", instruction_bin);
309: //INSTRUCTION("BOX")
310: //(point 1, point 2)
311: INSTRUCTION("CHR", instruction_chr);
312: INSTRUCTION("CLS", instruction_cls);
313: INSTRUCTION("CON", instruction_con);
314: INSTRUCTION("COS", instruction_cos);
315: INSTRUCTION("COV", instruction_cov);
316: INSTRUCTION("DEC", instruction_dec);
317: INSTRUCTION("DEG", instruction_deg);
318: INSTRUCTION("DER", instruction_der);
319: INSTRUCTION("DET", instruction_det);
320: INSTRUCTION("DFT", instruction_dft);
321: INSTRUCTION("DOT", instruction_dot);
322: INSTRUCTION("DUP", instruction_dup);
323: INSTRUCTION("EGV", instruction_egv);
324: INSTRUCTION("END", instruction_end);
325: INSTRUCTION("ENG", instruction_eng);
1.96 bertrand 326: INSTRUCTION("EQV", instruction_eqv);
1.1 bertrand 327: INSTRUCTION("EXP", instruction_exp);
328: INSTRUCTION("FC?", instruction_fc_test);
329: INSTRUCTION("FFT", instruction_fft);
330: //INSTRUCTION("FIT")
331: //Extension RPL/2 (choix de la méthode de régression, par défaut, 'LINEAR'.
332: //Les types sont
333: //'LINEAR' => y = b + mx
334: //'LOGARITHMIC' => y = b + m ln(x)
335: //'EXPONENTIAL' => y = be^(mx) ou ln(y) = ln(b) + mx
336: //'POWER' => y = bx^m ou ln(y) = ln(b) + m ln(x)
337: INSTRUCTION("FIX", instruction_fix);
338: INSTRUCTION("FOR", instruction_for);
339: INSTRUCTION("FS?", instruction_fs_test);
340: INSTRUCTION("GET", instruction_get);
341: INSTRUCTION("HEX", instruction_hex);
342: INSTRUCTION("IDN", instruction_idn);
343: INSTRUCTION("IFT", instruction_ift);
344: INSTRUCTION("INT", instruction_int);
345: INSTRUCTION("INV", instruction_inv);
346: INSTRUCTION("KEY", instruction_key);
347: INSTRUCTION("LOG", instruction_log);
348: INSTRUCTION("LSQ", instruction_lsq);
349: INSTRUCTION("MAX", instruction_max);
350: INSTRUCTION("MEM", instruction_mem);
351: INSTRUCTION("MIN", instruction_min);
352: INSTRUCTION("MOD", instruction_mod);
353: INSTRUCTION("NEG", instruction_neg);
354: INSTRUCTION("NOT", instruction_not);
355: INSTRUCTION("NUM", instruction_num);
356: INSTRUCTION("OCT", instruction_oct);
357: INSTRUCTION("POS", instruction_pos);
358: INSTRUCTION("PR1", instruction_pr1);
359: INSTRUCTION("PUT", instruction_put);
360: INSTRUCTION("RAD", instruction_rad);
361: INSTRUCTION("RCI", instruction_rci);
362: INSTRUCTION("RCL", instruction_rcl);
363: INSTRUCTION("RDM", instruction_rdm);
364: INSTRUCTION("RDZ", instruction_rdz);
365: INSTRUCTION("RES", instruction_res);
366: INSTRUCTION("RLB", instruction_rlb);
367: INSTRUCTION("RND", instruction_rnd);
368: INSTRUCTION("ROT", instruction_rot);
369: INSTRUCTION("RRB", instruction_rrb);
370: INSTRUCTION("RSD", instruction_rsd);
371: INSTRUCTION("SCI", instruction_sci);
372: INSTRUCTION("SIN", instruction_sin);
373: INSTRUCTION("SLB", instruction_slb);
374: INSTRUCTION("SRB", instruction_srb);
375: INSTRUCTION("SST", instruction_sst);
376: INSTRUCTION("STD", instruction_std);
377: INSTRUCTION("STO", instruction_sto);
378: INSTRUCTION("SVD", instruction_svd);
379: INSTRUCTION("SVL", instruction_svl);
380: INSTRUCTION("SUB", instruction_sub);
381: INSTRUCTION("SWI", instruction_swi);
382: INSTRUCTION("SX2", instruction_sx2);
383: INSTRUCTION("SXY", instruction_sxy);
384: INSTRUCTION("SY2", instruction_sy2);
385: INSTRUCTION("TAN", instruction_tan);
386: INSTRUCTION("TOT", instruction_tot);
387: INSTRUCTION("TRN", instruction_trn);
388: INSTRUCTION("USE", instruction_use);
389: INSTRUCTION("VAR", instruction_var);
390: //INSTRUCTION("V->")
391: //Instruction HP48 (éclate un vecteur [ x y ] => x y quel que soit le
392: //système de
393: //coordonnées)
394: INSTRUCTION("XOR", instruction_xor);
395: INSTRUCTION("->Q", instruction_fleche_q);
396: INSTRUCTION("%CH", instruction_pourcent_ch);
397:
398: INSTRUCTION("ACOS", instruction_acos);
399: INSTRUCTION("ALOG", instruction_alog);
400: INSTRUCTION("ASIN", instruction_asin);
401: INSTRUCTION("ATAN", instruction_atan);
402: INSTRUCTION("AXES", instruction_axes);
403: INSTRUCTION("BEEP", instruction_beep);
404: INSTRUCTION("B->R", instruction_b_vers_r);
405: INSTRUCTION("CASE", instruction_case);
406: INSTRUCTION("CEIL", instruction_ceil);
407: INSTRUCTION("CLMF", instruction_clmf);
408: INSTRUCTION("CNRM", instruction_cnrm);
409: INSTRUCTION("COLS", instruction_cols);
410: INSTRUCTION("COL+", instruction_col_plus);
411: INSTRUCTION("COL-", instruction_col_moins);
412: INSTRUCTION("COMB", instruction_comb);
413: INSTRUCTION("COND", instruction_cond);
414: INSTRUCTION("CONJ", instruction_conj);
415: INSTRUCTION("CONT", instruction_cont);
416: INSTRUCTION("COPY", instruction_copy);
417: INSTRUCTION("CORR", instruction_corr);
418: INSTRUCTION("COSH", instruction_cosh);
419: INSTRUCTION("CSWP", instruction_cswp);
420: INSTRUCTION("C->R", instruction_c_vers_r);
421: INSTRUCTION("DATE", instruction_date);
422: INSTRUCTION("DECR", instruction_decr);
423: INSTRUCTION("DISP", instruction_disp);
424: INSTRUCTION("DRAW", instruction_draw);
425: INSTRUCTION("DRAX", instruction_drax);
426: INSTRUCTION("DROP", instruction_drop);
427: INSTRUCTION("DRWS", instruction_drws);
428: INSTRUCTION("DUP2", instruction_dup2);
429: INSTRUCTION("DUPN", instruction_dupn);
430: INSTRUCTION("D->R", instruction_d_vers_r);
431: INSTRUCTION("EDIT", instruction_edit);
432: INSTRUCTION("EGVL", instruction_egvl);
433: INSTRUCTION("ELSE", instruction_else);
434: INSTRUCTION("ERRM", instruction_errm);
435: INSTRUCTION("ERRN", instruction_errn);
436: INSTRUCTION("EVAL", instruction_eval);
437: INSTRUCTION("EXIT", instruction_exit);
438: INSTRUCTION("EXPM", instruction_expm);
439: INSTRUCTION("FACT", instruction_fact);
440: INSTRUCTION("FC?C", instruction_fc_test_c);
441: INSTRUCTION("FC?S", instruction_fc_test_s);
442: //INSTRUCTION("FORM")
443: INSTRUCTION("FS?C", instruction_fs_test_c);
444: INSTRUCTION("FS?S", instruction_fs_test_s);
445: INSTRUCTION("FUSE", instruction_fuse);
446: INSTRUCTION("GEGV", instruction_gegv);
447: INSTRUCTION("GETC", instruction_getc);
448: INSTRUCTION("GETI", instruction_geti);
449: INSTRUCTION("GETR", instruction_getr);
450: INSTRUCTION("HALT", instruction_halt);
451: INSTRUCTION("HEAD", instruction_head);
452: INSTRUCTION("HELP", instruction_help);
453: INSTRUCTION("HMS+", instruction_hms_plus);
454: INSTRUCTION("HMS-", instruction_hms_moins);
455: //INSTRUCTION("HOME");
456: INSTRUCTION("IDFT", instruction_idft);
457: INSTRUCTION("IFFT", instruction_ifft);
458: INSTRUCTION("IFTE", instruction_ifte);
459: INSTRUCTION("INCR", instruction_incr);
460: //INSTRUCTION("ISOL");
461: INSTRUCTION("ISWI", instruction_iswi);
462: INSTRUCTION("KILL", instruction_kill);
463: INSTRUCTION("KIND", instruction_kind);
464: INSTRUCTION("LAST", instruction_last);
465: INSTRUCTION("LEGV", instruction_legv);
466: INSTRUCTION("LINE", instruction_line);
467: INSTRUCTION("LNP1", instruction_lnp1);
468: INSTRUCTION("LOCK", instruction_lock);
1.36 bertrand 469: INSTRUCTION("L->T", instruction_l_vers_t);
1.1 bertrand 470: INSTRUCTION("MANT", instruction_mant);
471: INSTRUCTION("MARK", instruction_mark);
472: //INSTRUCTION("MAXR")
473: INSTRUCTION("MAXS", instruction_maxs);
474: INSTRUCTION("MEAN", instruction_mean);
475: //INSTRUCTION("MINR");
476: INSTRUCTION("MINS", instruction_mins); // MAXDOUBLE/MINDOUBLE
477: INSTRUCTION("NEXT", instruction_next);
478: //INSTRUCTION("NUMX");
479: //INSTRUCTION("NUMY");
480: INSTRUCTION("OPEN", instruction_open);
481: INSTRUCTION("OVER", instruction_over);
482: //INSTRUCTION("PATH");
483: INSTRUCTION("PCOV", instruction_pcov);
484: INSTRUCTION("PEEK", instruction_peek);
485: INSTRUCTION("PERM", instruction_perm);
486: INSTRUCTION("PICK", instruction_pick);
487: INSTRUCTION("PLOT", instruction_plot);
488: INSTRUCTION("PMAX", instruction_pmax);
489: INSTRUCTION("PMIN", instruction_pmin);
490: INSTRUCTION("POKE", instruction_poke);
1.66 bertrand 491: INSTRUCTION("POLL", instruction_poll);
1.1 bertrand 492: INSTRUCTION("PPAR", instruction_ppar);
493: INSTRUCTION("PRMD", instruction_prmd);
494: INSTRUCTION("PRST", instruction_prst);
495: INSTRUCTION("PUTC", instruction_putc);
496: INSTRUCTION("PUTI", instruction_puti);
497: INSTRUCTION("PUTR", instruction_putr);
498: INSTRUCTION("PVAR", instruction_pvar);
499: INSTRUCTION("P->R", instruction_p_vers_r);
500: //INSTRUCTION("QUAD");
501: INSTRUCTION("RAND", instruction_rand);
502: INSTRUCTION("RANK", instruction_rank);
503: //INSTRUCTION("RANM")
504: //Instruction HP48 (crée une matrice aléatoire
505: //{ nb_lignes nb_colonnes } ou tableau quelconque dont les éléments seront
506: //modifiés pour prendre des valeurs aléatoires entre -9 et 9)
507: INSTRUCTION("RCEQ", instruction_rceq);
508: INSTRUCTION("RCIJ", instruction_rcij);
509: INSTRUCTION("RCLF", instruction_rclf);
510: INSTRUCTION("RCLS", instruction_rcls);
511: INSTRUCTION("RCWS", instruction_rcws);
512: INSTRUCTION("RDGN", instruction_rdgn);
513: INSTRUCTION("READ", instruction_read);
514: INSTRUCTION("RECV", instruction_recv);
515: INSTRUCTION("REGV", instruction_regv);
516: INSTRUCTION("REPL", instruction_repl);
1.90 bertrand 517: INSTRUCTION("RGDL", instruction_rgdl);
518: INSTRUCTION("RGDR", instruction_rgdr);
1.1 bertrand 519: INSTRUCTION("RNRM", instruction_rnrm);
520: INSTRUCTION("ROLL", instruction_roll);
521: //INSTRUCTION("ROOT")
522: INSTRUCTION("ROW-", instruction_row_moins);
523: INSTRUCTION("ROW+", instruction_row_plus);
524: //INSTRUCTION("RREF")
525: //Instruction HP48 (transforme [A B] en [I C] par combinaisons linéaires
526: //de lignes)
527: INSTRUCTION("RSWP", instruction_rswp);
528: INSTRUCTION("R->B", instruction_r_vers_b);
529: INSTRUCTION("R->C", instruction_r_vers_c);
530: INSTRUCTION("R->D", instruction_r_vers_d);
531: INSTRUCTION("R->P", instruction_r_vers_p);
532: INSTRUCTION("SAME", instruction_same);
533: INSTRUCTION("SAVE", instruction_save);
534: INSTRUCTION("SCLS", instruction_scls);
535: INSTRUCTION("SDEV", instruction_sdev);
536: INSTRUCTION("SEND", instruction_send);
537: //INSTRUCTION("SHOW");
538: INSTRUCTION("SIGN", instruction_sign);
539: INSTRUCTION("SINH", instruction_sinh);
540: INSTRUCTION("SINV", instruction_sinv);
541: INSTRUCTION("SIZE", instruction_size);
542: INSTRUCTION("SNEG", instruction_sneg);
543: INSTRUCTION("SORT", instruction_sort);
544: INSTRUCTION("SPAR", instruction_spar);
545: INSTRUCTION("SQRT", instruction_sqrt);
546: //INSTRUCTION("SRAD");
1.53 bertrand 547: INSTRUCTION("SREV", instruction_srev);
1.1 bertrand 548: //INSTRUCTION("SRNM")
549: //Instruction HP48 (renvoie la norme spectrale d'un tableau. Pour une
550: //matrice,
551: //la norme spectrale est égale à sa plus grande valeur singulière. Pour un
552: //vecteur, la fonction est équivalente à ABS.
553: INSTRUCTION("STEP", instruction_step);
554: INSTRUCTION("STEQ", instruction_steq);
555: INSTRUCTION("STO*", instruction_sto_fois);
556: INSTRUCTION("STO+", instruction_sto_plus);
557: INSTRUCTION("STO-", instruction_sto_moins);
558: INSTRUCTION("STO/", instruction_sto_division);
559: INSTRUCTION("STOF", instruction_stof);
560: INSTRUCTION("STOP", instruction_stop);
561: INSTRUCTION("STOS", instruction_stos);
562: INSTRUCTION("STWS", instruction_stws);
563: INSTRUCTION("SWAP", instruction_swap);
564: INSTRUCTION("SYNC", instruction_sync);
565: INSTRUCTION("TAIL", instruction_tail);
566: INSTRUCTION("TANH", instruction_tanh);
567: INSTRUCTION("THEN", instruction_then);
568: INSTRUCTION("TIME", instruction_time);
569: INSTRUCTION("TRIM", instruction_trim);
570: INSTRUCTION("TRNC", instruction_trnc);
571: INSTRUCTION("TRUE", instruction_true);
572: INSTRUCTION("TYPE", instruction_type);
1.36 bertrand 573: INSTRUCTION("T->L", instruction_t_vers_l);
1.1 bertrand 574: INSTRUCTION("UTPC", instruction_utpc);
575: INSTRUCTION("UTPF", instruction_utpf);
576: INSTRUCTION("UTPN", instruction_utpn);
577: INSTRUCTION("UTPT", instruction_utpt);
578: INSTRUCTION("VARS", instruction_vars);
579: INSTRUCTION("WAIT", instruction_wait);
580: INSTRUCTION("XCOL", instruction_xcol);
581: INSTRUCTION("XPON", instruction_xpon);
582: //INSTRUCTION("XRNG")
583: //INSTRUCTION("XVOL")
584: INSTRUCTION("YCOL", instruction_ycol);
585: //INSTRUCTION("YRNG")
586: //INSTRUCTION("YVOL")
587: //INSTRUCTION("ZVOL")
588: //INSTRUCTION("->V2")
589: //Instruction HP48 (combine deux réels x et y en un vecteur 2D en fonction
590: //du mode de coordonnées en cours => [ x y ] et ce quel que soit le système
591: //de coordonnées courant)
592: //INSTRUCTION("->V3")
593:
594: INSTRUCTION("ABORT", instruction_abort);
595: INSTRUCTION("ACOSH", instruction_acosh);
596: INSTRUCTION("ALARM", instruction_alarm);
597: INSTRUCTION("ASINH", instruction_asinh);
598: INSTRUCTION("ATANH", instruction_atanh);
599: //INSTRUCTION("BYTES");
600: INSTRUCTION("CENTR", instruction_centr);
601: //INSTRUCTION("CIRCL");
602: INSTRUCTION("CLEAR", instruction_clear);
603: INSTRUCTION("CLLCD", instruction_cllcd);
604: INSTRUCTION("CLOSE", instruction_close);
605: INSTRUCTION("CLUSR", instruction_clusr);
606: //INSTRUCTION("CLVAR");
607: //INSTRUCTION("COLCT")
608: INSTRUCTION("COL->", instruction_col_fleche);
609: //INSTRUCTION("CONIC")
610: //Instruction HP48 (sélectionne le type de tracé CONIC)
611: //Permet de tracer des coniques en fonction d'équations
612: //de type f(x, y) = 0.
613: //INSTRUCTION("CRDIR")
614: INSTRUCTION("CRMTX", instruction_crmtx);
615: INSTRUCTION("CROSS", instruction_cross);
616: INSTRUCTION("CRTAB", instruction_crtab);
617: INSTRUCTION("CSTOP", instruction_cstop);
618: INSTRUCTION("CYCLE", instruction_cycle);
619: //INSTRUCTION("CYLIN")
620: //Instruction HP48 (sélectionne le type de tracé CYLINDRIC)
621: INSTRUCTION("DEPND", instruction_depnd);
622: INSTRUCTION("DEPTH", instruction_depth);
623: //INSTRUCTION("DOSUB")
624: //Instruction HP48 (application séquentielle d'une fonction à une liste)
625: //liste nombre_elements_traites_a_chaque_iteration fonction DOSUB
626: //{ 1 2 3 4 5 }
627: //2
628: //<< + 2 / >>
629: //DOSUB
630: //=> { 1.5 2.5 3.5 4.5 }
631: INSTRUCTION("DGTIZ", instruction_dgtiz);
632: INSTRUCTION("DROP2", instruction_drop2);
633: INSTRUCTION("DROPN", instruction_dropn);
634: INSTRUCTION("ERASE", instruction_erase);
635: INSTRUCTION("EXGET", instruction_exget);
636: //INSTRUCTION("EXPAN");
637: INSTRUCTION("EXSUB", instruction_exsub);
638: INSTRUCTION("EYEPT", instruction_eyept);
639: INSTRUCTION("FALSE", instruction_false);
640: INSTRUCTION("FLOOR", instruction_floor);
641: INSTRUCTION("GAMMA", instruction_gamma);
642: INSTRUCTION("GEGVL", instruction_gegvl);
643: INSTRUCTION("GLEGV", instruction_glegv);
644: INSTRUCTION("GREGV", instruction_gregv);
645: INSTRUCTION("HMS->", instruction_hms_fleche);
646: INSTRUCTION("IFERR", instruction_iferr);
647: INSTRUCTION("INDEP", instruction_indep);
648: INSTRUCTION("INPUT", instruction_input);
649: INSTRUCTION("JDATE", instruction_jdate);
650: INSTRUCTION("LABEL", instruction_label);
651: INSTRUCTION("LCASE", instruction_lcase);
652: INSTRUCTION("LCHOL", instruction_lchol);
653: INSTRUCTION("LCD->", instruction_lcd_fleche);
1.51 bertrand 654: INSTRUCTION("LIMIT", instruction_limit);
1.1 bertrand 655: //INSTRUCTION("NDIST")
656: //Instruction HP48 (distribution normale, prend la moyenne au niveau 3,
657: //la variance au niveau 2, un réel x au niveau 1 et renvoie la probabilité
658: //qu'une variable aléatoire normale soit égale à x dans une distribution
659: //normale).
660: INSTRUCTION("NRAND", instruction_nrand);
661: INSTRUCTION("OBGET", instruction_obget);
662: INSTRUCTION("OBSUB", instruction_obsub);
663: INSTRUCTION("PAPER", instruction_paper);
664: //INSTRUCTION("PCOEFF")
665: //INSTRUCTION("PEVAL")
666: //INSTRUCTION("PGDIR")
667: //INSTRUCTION("PIXEL")
668: //INSTRUCTION("PLIST")
669: //Instruction HP48 (produit des termes d'une liste)
670: INSTRUCTION("POLAR", instruction_polar);
671: INSTRUCTION("PRINT", instruction_print);
672: //INSTRUCTION("PREDV");
673: INSTRUCTION("PRLCD", instruction_prlcd);
674: //INSTRUCTION("PROOT")
675: //Instruction HP48 (calcule les racines d'un polynôme en fonction du tableau
676: //de coefficients)
677: INSTRUCTION("PRSTC", instruction_prstc);
678: INSTRUCTION("PRUSR", instruction_prusr);
679: INSTRUCTION("PRVAR", instruction_prvar);
680: INSTRUCTION("PSDEV", instruction_psdev);
681: INSTRUCTION("PURGE", instruction_purge);
682: INSTRUCTION("RDATE", instruction_rdate);
1.65 bertrand 683: INSTRUCTION("REGEX", instruction_regex);
1.1 bertrand 684: INSTRUCTION("RELAX", instruction_relax);
685: INSTRUCTION("RFUSE", instruction_rfuse);
686: INSTRUCTION("RSTOP", instruction_rstop);
687: INSTRUCTION("ROLLD", instruction_rolld);
688: INSTRUCTION("ROW->", instruction_row_fleche);
689: INSTRUCTION("SCALE", instruction_scale);
690: INSTRUCTION("SCHED", instruction_sched);
691: INSTRUCTION("SCHUR", instruction_schur);
692: INSTRUCTION("SCONJ", instruction_sconj);
693: INSTRUCTION("SLICE", instruction_slice);
694: //INSTRUCTION("SLIST")
695: //Instruction HP48 (somme des termes d'une liste)
696: INSTRUCTION("SPAWN", instruction_spawn);
697: INSTRUCTION("START", instruction_start);
698: INSTRUCTION("STORE", instruction_store);
699: INSTRUCTION("STR->", instruction_str_fleche);
700: INSTRUCTION("TAYLR", instruction_taylr);
701: INSTRUCTION("TITLE", instruction_title);
702: //INSTRUCTION("TRACE")
703: //INSTRUCTION("TRUTH")
704: INSTRUCTION("UCASE", instruction_ucase);
705: INSTRUCTION("UCHOL", instruction_uchol);
706: INSTRUCTION("UNTIL", instruction_until);
707: //INSTRUCTION("UPDIR")
708: INSTRUCTION("VISIT", instruction_visit);
709: INSTRUCTION("WFACK", instruction_wfack);
710: INSTRUCTION("WFSWI", instruction_wfswi);
711: INSTRUCTION("WHILE", instruction_while);
712: //INSTRUCTION("WIDTH")
713: INSTRUCTION("WRITE", instruction_write);
714: INSTRUCTION("XROOT", instruction_xroot);
715: INSTRUCTION("YIELD", instruction_yield);
716: INSTRUCTION("->COL", instruction_fleche_col);
717: INSTRUCTION("->HMS", instruction_fleche_hms);
718: INSTRUCTION("->LCD", instruction_fleche_lcd);
719: INSTRUCTION("->NUM", instruction_fleche_num);
720: INSTRUCTION("->ROW", instruction_fleche_row);
721: INSTRUCTION("->STR", instruction_fleche_str);
722:
723: INSTRUCTION("APPEND", instruction_append);
724: INSTRUCTION("ARRY->", instruction_array_fleche);
1.12 bertrand 725: INSTRUCTION("ATEXIT", instruction_atexit);
1.24 bertrand 726: INSTRUCTION("ATPOKE", instruction_atpoke);
1.1 bertrand 727: INSTRUCTION("BESSEL", instruction_bessel);
1.79 bertrand 728: INSTRUCTION("CIPHER", instruction_cipher);
1.1 bertrand 729: INSTRUCTION("CLRERR", instruction_clrerr);
730: INSTRUCTION("CLRMTX", instruction_clrmtx);
731: INSTRUCTION("CLRSWI", instruction_clrswi);
732: INSTRUCTION("CREATE", instruction_create);
733: INSTRUCTION("DELETE", instruction_delete);
1.59 bertrand 734: # ifdef SHARED_MEMORY
1.60 bertrand 735: INSTRUCTION("DETACH", instruction_detach);
1.59 bertrand 736: # else
1.60 bertrand 737: if ((*s_etat_processus).langue == 'F')
738: {
739: printf("+++Attention : DETACH est émulé par SPAWN car le système"
740: " hôte ne supporte\n"
741: " pas de mémoire partagée !\n");
742: }
743: else
744: {
745: printf("+++Warning : DETACH is replaced by SPAWN as host system"
746: " does not support\n"
747: " shared memory !\n");
748: }
749:
750: INSTRUCTION("DETACH", instruction_spawn);
1.29 bertrand 751: # endif
1.1 bertrand 752: INSTRUCTION("DIAG->", instruction_diag_fleche);
1.78 bertrand 753: INSTRUCTION("DIGEST", instruction_digest);
1.1 bertrand 754: //INSTRUCTION("DOLIST")
755: //Instruction HP48 (application d'une fonction à une liste)
756: //liste(s) nombre_de_listes_a_traiter fonction DOLIST
757: //{ 1 2 3 }
758: //{ 4 5 6 }
759: //{ 7 8 9 }
760: //3
761: //<< * + >>
762: //DOLIST
763: //=> { 29 42 57 }
764: INSTRUCTION("ELSEIF", instruction_elseif);
1.74 bertrand 765: INSTRUCTION("FORALL", instruction_forall);
1.1 bertrand 766: INSTRUCTION("FORMAT", instruction_format);
767: //INSTRUCTION("HEIGHT")
768: INSTRUCTION("ITRACE", instruction_itrace);
769: INSTRUCTION("LIST->", instruction_list_fleche);
770: INSTRUCTION("LOGGER", instruction_logger);
771: INSTRUCTION("MCLRIN", instruction_mclrin);
772: INSTRUCTION("NRPROC", instruction_nrproc);
1.17 bertrand 773: INSTRUCTION("PROCID", instruction_procid);
1.1 bertrand 774: INSTRUCTION("PROMPT", instruction_prompt);
775: INSTRUCTION("RCLSWI", instruction_rclswi);
776: INSTRUCTION("RECALL", instruction_recall);
777: INSTRUCTION("RECODE", instruction_recode);
1.111 bertrand 778: INSTRUCTION("RECORD", instruction_record);
1.1 bertrand 779: INSTRUCTION("REDRAW", instruction_redraw);
780: INSTRUCTION("REMOVE", instruction_remove);
781: INSTRUCTION("REPEAT", instruction_repeat);
782: INSTRUCTION("RETURN", instruction_return);
783: INSTRUCTION("REWIND", instruction_rewind);
784: //INSTRUCTION("SCREEN")
785: INSTRUCTION("SELECT", instruction_select);
786: //INSTRUCTION("SPHERE")
787: INSTRUCTION("SHARED", instruction_shared);
788: INSTRUCTION("SPLASH", instruction_splash);
789: INSTRUCTION("STATIC", instruction_static);
790: INSTRUCTION("STOSWI", instruction_stoswi);
791: //INSTRUCTION("STREAM", instruction_stream);
792: //{ 1 2 3 4 5 } << * >> STREAM => 120
793: INSTRUCTION("TARGET", instruction_target);
794: INSTRUCTION("UNLOCK", instruction_unlock);
795: INSTRUCTION("VERIFY", instruction_verify);
796: INSTRUCTION("WFDATA", instruction_wfdata);
797: INSTRUCTION("WFLOCK", instruction_wflock);
798: INSTRUCTION("WFPOKE", instruction_wfpoke);
799: INSTRUCTION("WFPROC", instruction_wfproc);
800: INSTRUCTION("WFSOCK", instruction_wfsock);
801: INSTRUCTION("->ARRY", instruction_fleche_array);
802: INSTRUCTION("->DIAG", instruction_fleche_diag);
803: INSTRUCTION("->LIST", instruction_fleche_list);
804:
805: INSTRUCTION("ARRAY->", instruction_array_fleche);
806: //INSTRUCTION("BARPLOT")
807: //INSTRUCTION("BESTFIT")
808: //Instruction HP48 (choisit le meilleur modèle de régression)
809: INSTRUCTION("CLRFUSE", instruction_clrfuse);
810: INSTRUCTION("CONVERT", instruction_convert);
811: INSTRUCTION("CRSMPHR", instruction_crsmphr);
812: INSTRUCTION("CURRENC", instruction_currenc);
813: INSTRUCTION("DEFAULT", instruction_default);
814: INSTRUCTION("EPSILON", instruction_epsilon);
815: //INSTRUCTION("GRIDMAP")
816: //Instruction HP48 (sélectionne le mode de tracé GRIDMAP)
817: //Le tracé GRIDMAP transforme la grille d'échantillonnage rectiligne
818: //en appliquant la fonction en cours à valeurs complexes.
819: //Les coordonnées de chaque point de la grille (un nombre complexe)
820: //constituent
821: //les données d'entrée de la fonction qui les projette ensuite dans le
822: //grille
823: //de sortie.
824: //f(x,y)=fnct complexe évaluée sur la grille (x,y) et affichée comme une
825: //fonction paramétrique.
826: INSTRUCTION("INQUIRE", instruction_inquire);
1.15 bertrand 827: INSTRUCTION("MEMLOCK", instruction_memlock);
1.1 bertrand 828: INSTRUCTION("MTXLOCK", instruction_mtxlock);
1.109 bertrand 829: INSTRUCTION("NBRCPUS", instruction_nbrcpus);
1.1 bertrand 830: INSTRUCTION("PERSIST", instruction_persist);
831: INSTRUCTION("PLOTTER", instruction_plotter);
832: INSTRUCTION("PRIVATE", instruction_private);
833: INSTRUCTION("PROTECT", instruction_protect);
834: INSTRUCTION("PSHPRFL", instruction_pshprfl);
835: INSTRUCTION("PULPRFL", instruction_pulprfl);
1.64 bertrand 836: INSTRUCTION("RESTART", instruction_restart);
1.1 bertrand 837: INSTRUCTION("REVLIST", instruction_revlist);
838: INSTRUCTION("SCATTER", instruction_scatter);
839: INSTRUCTION("SUSPEND", instruction_suspend);
840: INSTRUCTION("SWILOCK", instruction_swilock);
841: INSTRUCTION("SYSEVAL", instruction_syseval);
842: INSTRUCTION("TABLE->", instruction_table_fleche);
843: INSTRUCTION("VERSION", instruction_version);
844: INSTRUCTION("WORKDIR", instruction_workdir);
845: INSTRUCTION("->ARRAY", instruction_fleche_array);
846: INSTRUCTION("->TABLE", instruction_fleche_table);
847:
848: INSTRUCTION("CLRCNTXT", instruction_clrcntxt);
849: INSTRUCTION("CLRSMPHR", instruction_clrsmphr);
1.83 bertrand 850: INSTRUCTION("COMPRESS", instruction_compress);
1.1 bertrand 851: INSTRUCTION("CONTINUE", instruction_continue);
1.73 bertrand 852: INSTRUCTION("CRITICAL", instruction_critical);
1.1 bertrand 853: INSTRUCTION("DUPCNTXT", instruction_dupcntxt);
854: INSTRUCTION("FUNCTION", instruction_function);
1.7 bertrand 855: INSTRUCTION("IMPLICIT", instruction_implicit);
1.50 bertrand 856: INSTRUCTION("INFINITY", instruction_sensible_infinity);
1.1 bertrand 857: INSTRUCTION("KEYLABEL", instruction_keylabel);
858: INSTRUCTION("KEYTITLE", instruction_keytitle);
859: INSTRUCTION("LOGSCALE", instruction_logscale);
860: INSTRUCTION("NEWPLANE", instruction_newplane);
861: INSTRUCTION("PSHCNTXT", instruction_pshcntxt);
862: INSTRUCTION("PULCNTXT", instruction_pulcntxt);
863: INSTRUCTION("SQLQUERY", instruction_sqlquery);
864: INSTRUCTION("SWIQUEUE", instruction_swiqueue);
865: INSTRUCTION("TOKENIZE", instruction_tokenize);
866: INSTRUCTION("VARIABLE", instruction_variable);
867: INSTRUCTION("VOLATILE", instruction_volatile);
868: INSTRUCTION("WARRANTY", instruction_warranty);
869:
870: INSTRUCTION("AUTOSCALE", instruction_autoscale);
871: INSTRUCTION("BACKSPACE", instruction_backspace);
1.22 bertrand 872: INSTRUCTION("BACKTRACE", instruction_backtrace);
1.13 bertrand 873: INSTRUCTION("CLRATEXIT", instruction_clratexit);
1.24 bertrand 874: INSTRUCTION("CLRATPOKE", instruction_clratpoke);
1.1 bertrand 875: INSTRUCTION("COPYRIGHT", instruction_copyright);
876: //INSTRUCTION("CYLINDRIC");
877: INSTRUCTION("DAEMONIZE", instruction_daemonize);
878: INSTRUCTION("DROPCNTXT", instruction_dropcntxt);
879: INSTRUCTION("EXTERNALS", instruction_externals);
880: INSTRUCTION("HISTOGRAM", instruction_histogram);
1.15 bertrand 881: INSTRUCTION("MEMUNLOCK", instruction_memunlock);
1.1 bertrand 882: INSTRUCTION("MTXSTATUS", instruction_mtxstatus);
883: INSTRUCTION("MTXUNLOCK", instruction_mtxunlock);
884: INSTRUCTION("PARAMETER", instruction_parameter);
885: //INSTRUCTION("PSCONTOUR")
886: //INSTRUCTION("SCATRPLOT")
887: //(trace un nuage de points de SDAT et la courbe de régression)
888: INSTRUCTION("SMPHRDECR", instruction_smphrdecr);
889: INSTRUCTION("SMPHRGETV", instruction_smphrgetv);
890: INSTRUCTION("SMPHRINCR", instruction_smphrincr);
891: INSTRUCTION("SWAPCNTXT", instruction_swapcntxt);
892: INSTRUCTION("SWISTATUS", instruction_swistatus);
893: INSTRUCTION("SWIUNLOCK", instruction_swiunlock);
894: INSTRUCTION("UNPROTECT", instruction_unprotect);
895: INSTRUCTION("WIREFRAME", instruction_wireframe);
896:
897: INSTRUCTION("MTXTRYLOCK", instruction_mtxtrylock);
898: INSTRUCTION("PARAMETRIC", instruction_parametric);
899: //INSTRUCTION("PARSURFACE")
900: //Instruction HP48 (tracé PARSURFACE) Equation sous forme de liste
901: INSTRUCTION("SLICESCALE", instruction_slicescale);
902: INSTRUCTION("SQLCONNECT", instruction_sqlconnect);
903: //INSTRUCTION("SLOPEFIELD")
904: //Instruction HP48 (type de tracé)
905: //Tracé 3D en courbes de niveaux.
906: //Le type de tracé 'SLOPEFIELD' dessine un réseau de segments dont les
907: //pentes
908: //représentent la valeur de la fonction (x,y) en leur milieu.
909: //=> utile pour y'=F(x,y)
1.83 bertrand 910: INSTRUCTION("UNCOMPRESS", instruction_uncompress);
1.1 bertrand 911:
912: INSTRUCTION("LOCALIZATION", instruction_localization);
913: INSTRUCTION("SMPHRTRYDECR", instruction_smphrtrydecr);
914:
915: INSTRUCTION("SQLDISCONNECT", instruction_sqldisconnect);
916: #undef INSTRUCTION
917:
918: return;
919: }
920:
921:
1.25 bertrand 922: void *
1.1 bertrand 923: analyse_instruction(struct_processus *s_etat_processus, unsigned char *ptr)
924: {
925: int pointeur;
926:
927: struct_instruction *l_instruction_courante;
928:
929: l_instruction_courante = (*s_etat_processus).arbre_instructions;
930:
931: while((*ptr) != d_code_fin_chaine)
932: {
933: pointeur = (*s_etat_processus).pointeurs_caracteres[*ptr];
934:
935: if (pointeur < 0)
936: {
937: // Caractère hors de l'alphabet des instructions
938:
939: return(NULL);
940: }
941:
1.41 bertrand 942: if ((*l_instruction_courante).noeuds[pointeur] == NULL)
1.1 bertrand 943: {
944: // Le chemin de l'instruction candidate n'existe pas.
945:
946: return(NULL);
947: }
948:
1.41 bertrand 949: l_instruction_courante = (*l_instruction_courante).noeuds[pointeur];
1.1 bertrand 950: ptr++;
951:
952: if ((l_instruction_courante == NULL) && ((*ptr) != d_code_fin_chaine))
953: {
954: // Le chemin de l'instruction candidate est incomplet.
955:
956: return(NULL);
957: }
958: }
959:
960: if ((*l_instruction_courante).feuille != NULL)
961: {
962: return((*l_instruction_courante).feuille);
963: }
964:
965: return(NULL);
966: }
967:
968:
969: void
970: analyse(struct_processus *s_etat_processus, void (*fonction)())
971: {
972: real8 attente;
973: real8 pourcentage;
974: real8 temps_cpu;
975: real8 temps_reel;
976:
977: static struct timeval horodatage_initial;
978: struct timeval horodatage_final;
979:
1.61 bertrand 980: # ifndef OS2
1.1 bertrand 981: static struct rusage usage_initial;
982: struct rusage usage_final;
1.61 bertrand 983: # else
984: static clock_t usage_initial;
985: clock_t usage_final;
986: # endif
1.1 bertrand 987:
988: struct timespec temporisation;
989:
990: unsigned char *position;
991: unsigned char *bibliotheque_candidate;
1.14 bertrand 992: unsigned char instruction_majuscule
993: [d_longueur_maximale_instruction];
1.1 bertrand 994: unsigned char registre_instruction_valide;
995:
996: void (*instruction)();
997:
998: errno = 0;
999: (*s_etat_processus).var_volatile_exception_gsl = 0;
1000:
1001: (*s_etat_processus).instruction_valide = 'Y';
1002: (*s_etat_processus).constante_symbolique = 'N';
1003: (*s_etat_processus).nombre_arguments = -2;
1004: (*s_etat_processus).instruction_intrinseque = 'I';
1005:
1006: /*
1007: * On autorise l'exécution d'un fork() dans un thread concurrent.
1008: */
1009:
1.57 bertrand 1010: # ifndef SEMAPHORES_NOMMES
1011: if (sem_post(&((*s_etat_processus).semaphore_fork)) != 0)
1012: # else
1013: if (sem_post((*s_etat_processus).semaphore_fork) != 0)
1014: # endif
1.1 bertrand 1015: {
1016: (*s_etat_processus).erreur_systeme = d_es_processus;
1017: return;
1018: }
1019:
1.57 bertrand 1020: # ifndef SEMAPHORES_NOMMES
1021: while(sem_wait(&((*s_etat_processus).semaphore_fork)) != 0)
1022: # else
1023: while(sem_wait((*s_etat_processus).semaphore_fork) != 0)
1024: # endif
1.9 bertrand 1025: {
1.56 bertrand 1026: if (errno != EINTR)
1027: {
1028: (*s_etat_processus).erreur_systeme = d_es_processus;
1029: return;
1030: }
1.9 bertrand 1031: }
1032:
1.73 bertrand 1033: /*
1034: * Verrou pour les sections_critiques
1035: */
1036:
1037: if (pthread_mutex_lock(&mutex_sections_critiques) != 0)
1038: {
1039: (*s_etat_processus).erreur_systeme = d_es_processus;
1040: return;
1041: }
1042:
1043: if (pthread_mutex_unlock(&mutex_sections_critiques) != 0)
1044: {
1045: (*s_etat_processus).erreur_systeme = d_es_processus;
1046: return;
1047: }
1048:
1.1 bertrand 1049: scrutation_injection(s_etat_processus);
1050:
1051: if (fonction == NULL)
1052: {
1.14 bertrand 1053: conversion_majuscule_limitee((*s_etat_processus).instruction_courante,
1054: instruction_majuscule, d_longueur_maximale_instruction);
1.1 bertrand 1055: instruction = analyse_instruction(s_etat_processus,
1056: instruction_majuscule);
1057:
1058: if (instruction == NULL)
1059: {
1060: // L'instruction n'existe pas.
1061:
1062: (*s_etat_processus).instruction_valide = 'N';
1063: }
1064: else
1065: {
1066: // Exécution de l'instruction associée. Le drapeau
1067: // (*s_etat_processus).instruction_valide peut passer à 'N'
1068: // dans le cas d'instructions sensibles à la casse.
1069:
1070: if ((*s_etat_processus).niveau_profilage >= 2)
1071: {
1072: profilage(s_etat_processus, instruction_majuscule);
1073: }
1074:
1075: (*s_etat_processus).instruction_valide = 'Y';
1076: instruction(s_etat_processus);
1077:
1078: if ((*s_etat_processus).niveau_profilage >= 2)
1079: {
1080: profilage(s_etat_processus, NULL);
1081: }
1082: }
1083: }
1084: else
1085: {
1086: if ((*s_etat_processus).niveau_profilage >= 2)
1087: {
1088: profilage(s_etat_processus,
1089: (*s_etat_processus).instruction_courante);
1090: }
1091:
1092: (*s_etat_processus).instruction_valide = 'Y';
1093: fonction(s_etat_processus);
1094:
1095: if ((*s_etat_processus).niveau_profilage >= 2)
1096: {
1097: profilage(s_etat_processus, NULL);
1098: }
1099: }
1100:
1101: if ((*s_etat_processus).instruction_valide == 'Y')
1102: {
1103: (*s_etat_processus).instruction_intrinseque = 'Y';
1104: }
1105:
1106: if ((*s_etat_processus).instruction_valide == 'N')
1107: {
1108: if ((position = index((*s_etat_processus).instruction_courante, '$'))
1109: != NULL)
1110: {
1.82 bertrand 1111: if ((bibliotheque_candidate = malloc(((size_t) (position + 1
1112: - (*s_etat_processus).instruction_courante))
1.1 bertrand 1113: * sizeof(unsigned char))) == NULL)
1114: {
1115: (*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
1116: return;
1117: }
1118:
1119: (*bibliotheque_candidate) = d_code_fin_chaine;
1120: strncat(bibliotheque_candidate,
1.82 bertrand 1121: (*s_etat_processus).instruction_courante, ((size_t)
1122: (position - (*s_etat_processus).instruction_courante)));
1.1 bertrand 1123:
1124: position++;
1125:
1126: if (execution_fonction_de_bibliotheque(s_etat_processus, position,
1127: bibliotheque_candidate) == d_vrai)
1128: {
1129: (*s_etat_processus).instruction_valide = 'Y';
1130: (*s_etat_processus).instruction_intrinseque = 'N';
1131: }
1132: else
1133: {
1134: (*s_etat_processus).instruction_valide = 'N';
1135: }
1136:
1137: free(bibliotheque_candidate);
1138: }
1139: else
1140: {
1141: if (execution_fonction_de_bibliotheque(s_etat_processus,
1142: (*s_etat_processus).instruction_courante, NULL)
1143: == d_vrai)
1144: {
1145: (*s_etat_processus).instruction_valide = 'Y';
1146: (*s_etat_processus).instruction_intrinseque = 'N';
1147: }
1148: else
1149: {
1150: (*s_etat_processus).instruction_valide = 'N';
1151: }
1152: }
1153: }
1154:
1155: /*
1156: --------------------------------------------------------------------------------
1157: Gestion des interruptions logicielles
1158: --------------------------------------------------------------------------------
1159: */
1160:
1161: if (((*s_etat_processus).erreur_systeme == d_es) &&
1162: ((*s_etat_processus).erreur_execution == d_ex) &&
1163: ((*s_etat_processus).exception == d_ep))
1164: {
1165: if ((*s_etat_processus).test_instruction == 'N')
1166: {
1.88 bertrand 1167: if (pthread_mutex_lock(&(*s_etat_processus).mutex_interruptions)
1168: != 0)
1.1 bertrand 1169: {
1.87 bertrand 1170: (*s_etat_processus).erreur_systeme = d_es_processus;
1171: }
1172: else
1173: {
1174: if ((*s_etat_processus).nombre_interruptions_non_affectees != 0)
1175: {
1176: affectation_interruptions_logicielles(s_etat_processus);
1177: }
1178:
1.88 bertrand 1179: if (pthread_mutex_unlock(&(*s_etat_processus)
1180: .mutex_interruptions) != 0)
1181: {
1182: (*s_etat_processus).erreur_systeme = d_es_processus;
1183: }
1.1 bertrand 1184: }
1185:
1186: if (((*s_etat_processus).nombre_interruptions_en_queue != 0) &&
1187: ((*s_etat_processus).erreur_systeme == d_es) &&
1188: ((*s_etat_processus).erreur_execution == d_ex))
1189: {
1190:
1191: registre_instruction_valide =
1192: (*s_etat_processus).instruction_valide;
1193: traitement_interruptions_logicielles(s_etat_processus);
1194: (*s_etat_processus).instruction_valide =
1195: registre_instruction_valide;
1196: }
1197: }
1198: }
1199:
1200: /*
1201: --------------------------------------------------------------------------------
1202: Limitation du pourcetage de temps CPU
1203: --------------------------------------------------------------------------------
1204: */
1205:
1206: if ((*s_etat_processus).pourcentage_maximal_cpu < 100)
1207: {
1.61 bertrand 1208: # ifndef OS2
1.1 bertrand 1209: getrusage(RUSAGE_SELF, &usage_final);
1.61 bertrand 1210: # else
1211: usage_final = clock();
1212: # endif
1213:
1.1 bertrand 1214: gettimeofday(&horodatage_final, NULL);
1215:
1.86 bertrand 1216: if ((*s_etat_processus).initialisation_scheduler == d_vrai)
1.1 bertrand 1217: {
1218: temps_reel = ((real8) (horodatage_final.tv_sec -
1219: horodatage_initial.tv_sec)) +
1220: (((real8) (horodatage_final.tv_usec -
1221: horodatage_initial.tv_usec)) / ((real8) 1E6));
1222:
1.61 bertrand 1223: // Le temps depuis la dernière limitation est de plus de un
1224: // dixième de seconde.
1225:
1.1 bertrand 1226: if (temps_reel >= 0.1)
1227: {
1.61 bertrand 1228: # ifndef OS2
1.1 bertrand 1229: temps_cpu = ((real8) ((usage_final.ru_utime.tv_sec +
1230: usage_final.ru_stime.tv_sec) -
1231: (usage_initial.ru_utime.tv_sec +
1232: usage_initial.ru_stime.tv_sec))) +
1233: (((real8) ((usage_final.ru_utime.tv_usec +
1234: usage_final.ru_stime.tv_usec) -
1235: (usage_initial.ru_utime.tv_usec +
1236: usage_initial.ru_stime.tv_usec))) / ((real8) 1E6));
1.61 bertrand 1237: # else
1238: temps_cpu = (usage_final - usage_initial) / CLOCKS_PER_SEC;
1239: # endif
1.1 bertrand 1240:
1241: pourcentage = 100 * temps_cpu / temps_reel;
1242:
1243: if (pourcentage > 100)
1244: {
1245: pourcentage = 100;
1246: }
1247:
1248: if (pourcentage > (*s_etat_processus).pourcentage_maximal_cpu)
1249: {
1250: attente = ((pourcentage * temps_cpu) /
1251: (*s_etat_processus).pourcentage_maximal_cpu)
1252: - (pourcentage * temps_cpu / 100);
1253:
1.84 bertrand 1254: temporisation.tv_sec = (time_t) floor(attente);
1255: temporisation.tv_nsec = (suseconds_t) ((attente
1.82 bertrand 1256: - ((real8) temporisation.tv_sec)) * 1E9);
1.1 bertrand 1257:
1.62 bertrand 1258: while(nanosleep(&temporisation, &temporisation) == -1)
1259: {
1260: if (errno != EINTR)
1261: {
1262: break;
1263: }
1264: }
1.1 bertrand 1265: }
1266:
1267: horodatage_initial = horodatage_final;
1268: usage_initial = usage_final;
1269: }
1270: }
1271: else
1272: {
1.86 bertrand 1273: (*s_etat_processus).initialisation_scheduler = d_vrai;
1.1 bertrand 1274:
1275: horodatage_initial = horodatage_final;
1276: usage_initial = usage_final;
1277: }
1278: }
1.61 bertrand 1279: else
1280: {
1.86 bertrand 1281: (*s_etat_processus).initialisation_scheduler = d_faux;
1.61 bertrand 1282: }
1.1 bertrand 1283:
1284: /*
1285: --------------------------------------------------------------------------------
1286: Introduction des erreurs générées
1287: --------------------------------------------------------------------------------
1288: */
1289:
1290: if (((*s_etat_processus).test_instruction == 'N') &&
1291: ((*s_etat_processus).instruction_valide == 'Y'))
1292: {
1293: traitement_asynchrone_exceptions_gsl(s_etat_processus);
1294:
1295: if ((*s_etat_processus).erreur_processus_fils == d_vrai)
1296: {
1297: (*s_etat_processus).erreur_processus_fils = d_faux;
1298:
1299: (*s_etat_processus).erreur_systeme =
1300: (*s_etat_processus).erreur_systeme_processus_fils;
1301: (*s_etat_processus).erreur_execution =
1302: (*s_etat_processus).erreur_execution_processus_fils;
1303: (*s_etat_processus).arret_si_exception = d_vrai;
1304:
1305: if ((*s_etat_processus).pid_erreur_processus_fils == getpid())
1306: {
1307: (*s_etat_processus).invalidation_message_erreur = d_faux;
1308: }
1309: else
1310: {
1311: (*s_etat_processus).invalidation_message_erreur = d_vrai;
1312: }
1313: }
1314:
1315: if (((*s_etat_processus).erreur_execution != d_ex) ||
1316: ((*s_etat_processus).erreur_systeme != d_es) ||
1317: ((*s_etat_processus).exception != d_ep))
1318: {
1319: (*s_etat_processus).niveau_derniere_erreur =
1320: (*s_etat_processus).niveau_courant;
1321:
1322: if ((*s_etat_processus).mode_execution_programme == 'Y')
1323: {
1.21 bertrand 1324: if ((*s_etat_processus).instruction_derniere_erreur != NULL)
1325: {
1326: free((*s_etat_processus).instruction_derniere_erreur);
1327: (*s_etat_processus).instruction_derniere_erreur = NULL;
1328: }
1329:
1.1 bertrand 1330: if ((*s_etat_processus).instruction_courante == NULL)
1331: {
1332: if (((*s_etat_processus).instruction_derniere_erreur =
1333: malloc(16 * sizeof(unsigned char))) == NULL)
1334: {
1335: (*s_etat_processus).erreur_systeme =
1336: d_es_allocation_memoire;
1337: return;
1338: }
1339:
1340: strcpy((*s_etat_processus).instruction_derniere_erreur,
1341: "<not available>");
1342: }
1343: else
1344: {
1345: if (((*s_etat_processus).instruction_derniere_erreur =
1346: malloc((strlen((*s_etat_processus)
1347: .instruction_courante) + 1) *
1348: sizeof(unsigned char))) == NULL)
1349: {
1350: (*s_etat_processus).erreur_systeme =
1351: d_es_allocation_memoire;
1352: return;
1353: }
1354:
1355: strcpy((*s_etat_processus).instruction_derniere_erreur,
1356: (*s_etat_processus).instruction_courante);
1357: }
1358: }
1359: else
1360: {
1.21 bertrand 1361: if ((*s_etat_processus).objet_courant != NULL)
1.1 bertrand 1362: {
1.21 bertrand 1363: if ((*s_etat_processus).instruction_derniere_erreur != NULL)
1364: {
1365: free((*s_etat_processus).instruction_derniere_erreur);
1366: (*s_etat_processus).instruction_derniere_erreur = NULL;
1367: }
1368:
1369: if (((*s_etat_processus).instruction_derniere_erreur =
1370: formateur(s_etat_processus, 0,
1371: (*s_etat_processus).objet_courant)) == NULL)
1372: {
1373: return;
1374: }
1375:
1376: (*s_etat_processus).objet_courant = NULL;
1.1 bertrand 1377: }
1378: }
1379: }
1380: }
1381:
1382: return;
1383: }
1384:
1385:
1386: /*
1387: ================================================================================
1388: Traitement asynchrone des erreurs de la bibliothèque GSL
1389: ================================================================================
1390: Entrées :
1391: --------------------------------------------------------------------------------
1392: Sorties :
1393: --------------------------------------------------------------------------------
1394: Effets de bord : néant
1395: ================================================================================
1396: */
1397:
1398: void
1399: traitement_asynchrone_exceptions_gsl(struct_processus *s_etat_processus)
1400: {
1401: if ((*s_etat_processus).var_volatile_exception_gsl != 0)
1402: {
1403: switch((*s_etat_processus).var_volatile_exception_gsl)
1404: {
1405: case GSL_EINVAL :
1406: {
1407: (*s_etat_processus).erreur_execution = d_ex_argument_invalide;
1408: break;
1409: }
1410:
1411: case GSL_EDOM :
1412: {
1413: (*s_etat_processus).exception = d_ep_domaine_definition;
1414: break;
1415: }
1416:
1417: case GSL_ERANGE :
1418: {
1419: (*s_etat_processus).exception = d_ep_resultat_indefini;
1420: break;
1421: }
1422:
1423: case GSL_EZERODIV :
1424: {
1425: (*s_etat_processus).exception = d_ep_division_par_zero;
1426: break;
1427: }
1428:
1429: case GSL_EUNDRFLW :
1430: {
1431: (*s_etat_processus).exception = d_ep_underflow;
1432: break;
1433: }
1434:
1435: case GSL_EOVRFLW :
1436: {
1437: (*s_etat_processus).exception = d_ep_overflow;
1438: break;
1439: }
1440:
1441: case GSL_ENOMEM :
1442: {
1443: (*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
1444: break;
1445: }
1446:
1447: case GSL_ELOSS :
1448: {
1449: (*s_etat_processus).exception = d_ep_perte_precision;
1450: break;
1451: }
1452:
1453: default :
1454: {
1455: (*s_etat_processus).erreur_execution =
1456: d_ex_routines_mathematiques;
1457: break;
1458: }
1459: }
1460:
1461: (*s_etat_processus).var_volatile_exception_gsl = 0;
1462: }
1463:
1464: return;
1465: }
1466:
1467: // vim: ts=4
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