double answer = 0;
-#define STORAGE_SIZE 10
-double storage[STORAGE_SIZE] = {0};
+#define DEFAULT_STORAGE_SIZE 10
+int storage_size = -1;
-char format[9] = "=> %..g\n";
+double *storage = NULL;
+
+#define DEFAULT_FORMAT "=> %.6g\n"
+char *format = NULL;
+char *minform = NULL;
+
+workspace_t *programs = NULL;
+int nb_programs = 0;
/* compare codes */
{ "|", Or, 2, 1, -2}
};
-#define NB_FUNCTIONS 24
+#define NB_FUNCTIONS 31
keyword_t functions[NB_FUNCTIONS] = {
{ "sqrt", Sqr, 1, 4, 5},
{ "pow", Pow, 2, 3, 5},
{ "inc", Inc, 1, 3, 5},
{ "dec", Dec, 1, 3, 5},
{ "disp", Disp, 0, 4, 9},
+ { "mem", Mem, 1, 3, 9},
+ { "clr", Clear, 0, 3, 9},
{ "quit", Quit, 0, 4, 9},
{ "help", Help, 0, 4, 9},
{ "!", Not, 1, 1, 6},
{ "cond", Cond, 3, 4, 5},
{ "while", While, 2, 5, 5},
- { "print", Print, 1, 5, 5}
+ { "print", Print, 1, 5, 5},
+ { "prog", Prog, 3, 4, 9},
+ { "call", Call, 10, 4, 5},
+ { "ls", List, 0, 2, 9},
+ { "edit", Edit, 1, 4, 9},
+ { "del", Del, 1, 3, 9}
};
#define NB_CONSTANTS 3
element_t *new = NULL;
VERBOSE (INFO, fprintf (stdout, "Processing: %s\n", str));
+ /* end without printing */
+
+ if (*str == ';') {
+ if (root) {
+ root->hidden = 1;
+ }
+ break;
+ }
+
/* skip spaces and tabs */
if ((*str == ' ') || (*str == '\t')) {
return ERROR_OP;
}
element_t **prog = NULL;
- new = newelement (Prog, 0, 5);
+ new = newelement (Code, 0, 5);
root = new;
prog = &root;
delelement (root);
return ERROR_OP;
}
- element_t *newprog = newelement (Prog, (*prog)->nbops + 1, 5);
+ element_t *newprog = newelement (Code, (*prog)->nbops + 1, 5);
for (i = 0; i < (*prog)->nbops; i++) {
newprog->ops[i] = (*prog)->ops[i];
(*prog)->ops[i] = NULL;
case Inc: func = "Increase"; break;
case Dec: func = "Decrease"; break;
case Disp: func = "Display"; break;
+ case Mem: func = "Memory"; break;
+ case Clear: func = "Clear"; break;
case Quit: func = "Quit"; break;
case Help: func = "Help"; break;
case Ans: func = "Ans"; break;
case Not: func = "Not"; break;
case Cond: func = "Condition"; break;
case While: func = "While"; break;
- case Prog: func = "Program"; break;
+ case Code: func = "Code"; break;
case Print: func = "Print"; break;
+ case Prog: func = "Program"; break;
+ case Call: func = "Call"; break;
+ case List: func = "List"; break;
+ case Edit: func = "Edit"; break;
+ case Del: func = "Del"; break;
}
fprintf (stdout, "Function: %s\n", func);
/* storage functions */
+void memory (int nb)
+{
+ int i, l;
+ double *tmp = NULL;
+ if (nb != storage_size) {
+ l = (nb < storage_size) ? nb : storage_size;
+ tmp = (double *) calloc (nb, sizeof (double));
+ if (tmp == NULL) {
+ VERBOSE (ERROR, fprintf (stderr, "can't allocate memory\n"));
+ exit (1);
+ }
+ for (i = 0; i < l; i++) {
+ tmp[i] = storage[i];
+ }
+ if (storage != NULL) {
+ free (storage);
+ }
+ storage = tmp;
+ storage_size = nb;
+ }
+}
+
double store (int index, double value)
{
- if ((index > 0) && (index <= STORAGE_SIZE)) {
+ if (storage_size == -1) {
+ memory (DEFAULT_STORAGE_SIZE);
+ }
+ if ((index > 0) && (index <= storage_size)) {
storage[index - 1] = value;
} else {
- VERBOSE (WARNING, fprintf (stdout, "invalid index (%d) [1, %d]\n", index, STORAGE_SIZE));
+ VERBOSE (WARNING, fprintf (stdout, "invalid index (%d) [%d, %d]\n", index, (storage_size) ? 1 : 0, storage_size));
}
return value;
}
double recall (int index)
{
- if ((index > 0) && (index <= STORAGE_SIZE)) {
+ if (storage_size == -1) {
+ memory (DEFAULT_STORAGE_SIZE);
+ }
+ if ((index > 0) && (index <= storage_size)) {
return storage[index - 1];
} else {
- VERBOSE (WARNING, fprintf (stdout, "invalid index (%d) [1, %d]\n", index, STORAGE_SIZE));
+ VERBOSE (WARNING, fprintf (stdout, "invalid index (%d) [%d, %d]\n", index, (storage_size) ? 1 : 0, storage_size));
}
return 0;
}
double increase (int index)
{
- if ((index > 0) && (index <= STORAGE_SIZE)) {
+ if (storage_size == -1) {
+ memory (DEFAULT_STORAGE_SIZE);
+ }
+ if ((index > 0) && (index <= storage_size)) {
return storage[index - 1]++;
} else {
- VERBOSE (WARNING, fprintf (stdout, "invalid index (%d) [1, %d]\n", index, STORAGE_SIZE));
+ VERBOSE (WARNING, fprintf (stdout, "invalid index (%d) [%d, %d]\n", index, (storage_size) ? 1 : 0, storage_size));
}
return 0;
}
double decrease (int index)
{
- if ((index > 0) && (index <= STORAGE_SIZE)) {
+ if (storage_size == -1) {
+ memory (DEFAULT_STORAGE_SIZE);
+ }
+ if ((index > 0) && (index <= storage_size)) {
return storage[index - 1]--;
} else {
- VERBOSE (WARNING, fprintf (stdout, "invalid index (%d) [1, %d]\n", index, STORAGE_SIZE));
+ VERBOSE (WARNING, fprintf (stdout, "invalid index (%d) [%d, %d]\n", index, (storage_size) ? 1 : 0, storage_size));
}
return 0;
}
void display (void)
{
int i;
+ if (storage_size == -1) {
+ memory (DEFAULT_STORAGE_SIZE);
+ }
fprintf (stdout, "storage:");
- for (i = 0; i < STORAGE_SIZE; i++) {
- fprintf (stdout, " %g", storage[i]);
+ for (i = 0; i < storage_size; i++) {
+ fprintf (stdout, " ");
+ fprintf (stdout, minform, storage[i]);
}
fprintf (stdout, "\n");
}
+void clear ()
+{
+ int i;
+ for (i = 0; i < storage_size; i++) {
+ storage[i] = 0;
+ }
+}
+
/* While do function */
double while_do (element_t *cond, element_t *action)
/* program function */
-double program_do (element_t **prog, int nbcalls)
+double execute_code (element_t **prog, int nbcalls)
{
double ret = 0;
int i;
return ret;
}
+/* print function */
+
+void set_format (char *prompt, int precision)
+{
+ char buffer[128] = {0};
+ free_format ();
+ sprintf (buffer, "%s%%.%dg\n", prompt, precision);
+ format = strdup (buffer);
+ sprintf (buffer, "%%.%dg", precision);
+ minform = strdup (buffer);
+}
+
+void free_format ()
+{
+ if (format) {
+ free (format);
+ format = NULL;
+ }
+ if (minform) {
+ free (minform);
+ minform = NULL;
+ }
+}
+
+double print (double value)
+{
+ fprintf (stdout, format ? format : DEFAULT_FORMAT, value);
+ fflush (stdout);
+ return value;
+}
+
/* quit function */
void quit (void)
exit (0);
}
+/* program function */
+
+void prog (int id, int nbmems, element_t *root)
+{
+ int i, n = -1;
+
+ if (programs == NULL) {
+
+ /* initial memory allocation */
+ programs = (workspace_t *) calloc (1, sizeof (workspace_t));
+ if (programs == NULL) {
+ VERBOSE (ERROR, fprintf (stderr, "can't allocate memory\n"));
+ exit (1);
+ }
+ nb_programs = 1;
+ n = 0;
+
+ } else {
+
+ /* look for existing program */
+ for (i = 0; i < nb_programs; i++) {
+ if ((programs + i)->id == id) {
+ n = i;
+ break;
+ }
+ }
+ if (n == -1) {
+
+ /* new program */
+ n = nb_programs++;
+ programs = (workspace_t *) realloc (programs, nb_programs * sizeof (workspace_t));
+ } else {
+
+ /* clean old program */
+ if ((programs + n)->storage) {
+ free ((programs + n)->storage);
+ }
+ if ((programs + n)->root) {
+ delelement ((programs + n)->root);
+ }
+ }
+ }
+
+ /* set program */
+ (programs + n)->id = id;
+ (programs + n)->answer = 0;
+ (programs + n)->storage = (double *) calloc (nbmems, sizeof (double));
+ if ((programs + n)->storage == NULL) {
+ VERBOSE (ERROR, fprintf (stderr, "can't allocate memory\n"));
+ exit (1);
+ }
+ (programs + n)->storage_size = nbmems;
+ (programs + n)->root = dupelement (root);
+}
+
+double call (int id, int nbops, element_t **ops)
+{
+ workspace_t tmp = {0};
+ int i, n = -1;
+ double ret = 0;
+
+ if (programs) {
+
+ /* look for program */
+ for (i = 0; i < nb_programs; i++) {
+ if ((programs + i)->id == id) {
+ n = i;
+ break;
+ }
+ }
+ if (n == -1) {
+ VERBOSE (WARNING, fprintf (stdout, "error unknown program (%d)\n", id));
+ return 0;
+ }
+
+ /* store context */
+ tmp.answer = answer;
+ tmp.storage = storage;
+ tmp.storage_size = storage_size;
+
+ /* change context */
+ answer = 0;
+ storage = (programs + n)->storage;
+ storage_size = (programs + n)->storage_size;
+ if (nbops > storage_size) {
+ storage = realloc (storage, nbops * sizeof (double));
+ storage_size = nbops;
+ }
+ for (i = 0; i < nbops; i++) {
+ double val = evaluate_element (ops[i], 0);
+ store (i + 1, val);
+ }
+
+ /* evaluate program */
+ element_t *elements = dupelement ((programs + n)->root);
+ ret = evaluate_element (elements, 0);
+
+ /* restore context */
+ answer = tmp.answer;
+ storage = tmp.storage;
+ storage_size = tmp.storage_size;
+ }
+
+ return ret;
+}
+
+void list ()
+{
+ int i;
+ if (programs != NULL) {
+ fprintf (stdout, "programs:");
+ for (i = 0; i < nb_programs; i++) {
+ fprintf (stdout, " %d", (programs + i)->id);
+ }
+ fprintf (stdout, "\n");
+ }
+}
+
+void edit (int id)
+{ }
+
+void del (int id)
+{ }
+
/* help message */
void help (void)
fprintf (stdout, " & | !\n");
fprintf (stdout, "mathematic functions:");
fprintf (stdout, " pow sqrt log exp\n");
- fprintf (stdout, "trigonometric functions:");
+ fprintf (stdout, "trig. func.:");
fprintf (stdout, " cos sin tan acos asin atan\n");
fprintf (stdout, "supported functions:");
fprintf (stdout, " abs ceil floor\n");
fprintf (stdout, "storage functions:");
- fprintf (stdout, " sto rcl inc dec\n");
- fprintf (stdout, "conditional functions:");
- fprintf (stdout, " cond while print {}\n");
- fprintf (stdout, "miscellaneous functions:");
+ fprintf (stdout, " mem sto rcl inc dec disp\n");
+ fprintf (stdout, "prog. functions:");
+ fprintf (stdout, " cond while print {} ;\n");
+ fprintf (stdout, "misc. functions:");
fprintf (stdout, " quit help\n");
fprintf (stdout, "supported constants:");
fprintf (stdout, " e pi\n");
{
double op0 = 0, op1 = 0;
char nextmask = mask;
+ int i, nb;
if ((root == NULL) || (root == ERROR_OP)) {
VERBOSE (WARNING, fprintf (stdout, "error while evaluating\n"));
case Lt:
case And:
case Or:
+ case Prog:
if (root->ops[1]) {
op1 = evaluate_element (root->ops[1], nextmask);
} else if (root->func != Store) {
case Inc:
case Dec:
case Not:
+ case Mem:
case Cond:
+ case Call:
+ case Edit:
+ case Del:
if (root->ops[0]) {
op0 = evaluate_element (root->ops[0], 0);
} else {
}
break;
case Disp:
+ case Clear:
case Quit:
case Help:
case Ans:
case Pi:
case E:
- case Prog:
+ case Code:
+ case List:
break;
case While:
if (root->ops[0] == NULL) {
case Inc: return increase ((int)op0);
case Dec: return decrease ((int)op0);
case Disp: display (); break;
+ case Mem: memory ((int)op0); break;
+ case Clear: clear (); break;
case Quit: quit (); break;
case Help: help (); break;
case Ans: return answer;
return 0;
}
case While: return while_do (root->ops[0], root->ops[1]);
- case Prog: return program_do (root->ops, root->nbops);
- case Print: printf (format, op0); return op0;
+ case Code: return execute_code (root->ops, root->nbops);
+ case Print: return print (op0);
+ case Prog: prog ((int)op0, (int)op1, root->ops[2]); break;
+ case Call:
+ for (i = 1, nb =0; i < root->nbops; i++) {
+ if (root->ops[i]) {
+ nb++;
+ }
+ }
+ return call ((int)op0, nb, root->ops + 1);
+ case List: list (); break;
+ case Edit: edit ((int)op0); break;
+ case Del: del ((int)op0); break;
}
return 0;