#include <malloc.h>
+#include <math.h>
+#include <stdio.h>
#include <stdlib.h>
+#include <string.h>
#include "debug.h"
-#include "fdprintf.h"
#include "parser.h"
+/* global variables */
+
+double answer = 0;
+
+#define DEFAULT_STORAGE_SIZE 10
+int storage_size = -1;
+double *storage = NULL;
+
+int argument_size = 0;
+double *argument = NULL;
+
+int stack_size = 0;
+double *stack = NULL;
+
+#define DEFAULT_FORMAT "=> %.6g\n"
+char *format = NULL;
+char *minform = NULL;
+
+workspace_t *programs = NULL;
+int nb_programs = 0;
+
/* compare codes */
int codecmp (char *ref, char *str)
int sig;
while (*ref != '\0') {
- sig = *str++ - *ref++;
+ if (*ref == '\t') {
+ sig = (*str == '.') ? -1 : ((*str >= '0') && (*str <= '9'));
+ } else {
+ sig = *str - *ref;
+ }
if (sig != 0) {
return (sig > 0) ? 1 : -1;
}
+ str++;
+ ref++;
}
return 0;
}
-/* allocate new element */
+/* calloc or die function */
-element_t *newelement (func_t function, int nbops)
+void *callocordie (size_t count, size_t size)
{
- element_t *new = (element_t *) calloc (1, sizeof (element_t));
- if (new == NULL) {
- VERBOSE (ERROR, fdprintf (stdfderr, "can't allocate memory\n"));
+ if (count * size == 0) {
return NULL;
}
+ void *new = calloc (count, size);
+ if (new == NULL) {
+ VERBOSE (ERROR, fprintf (stderr, "can't allocate memory\n"));
+ exit (1);
+ }
+ return new;
+}
+
+/* allocate new element */
+
+element_t *newelement (func_t function, int nbops, int prio)
+{
+ element_t *new = (element_t *) callocordie (1, sizeof (element_t));
+ if (nbops) {
+ new->ops = (element_t **) callocordie (nbops, sizeof (element_t *));
+ }
new->func = function;
new->nbops = nbops;
+ new->prio = prio;
return new;
}
+/* desallocate element */
+
+void delelement (element_t *root)
+{
+ if ((root != NULL) && (root != ERROR_OP)) {
+ int i;
+ for (i = 0; i < root->nbops; i++) {
+ delelement (root->ops[i]);
+ }
+ if (root->nbops) {
+ free (root->ops);
+ }
+ free (root);
+ }
+}
+
+/* duplicate element */
+
+element_t *dupelement (element_t *root)
+{
+ element_t *tmp = NULL;
+ int i;
+
+ if ((root == NULL) || (root == ERROR_OP)) {
+ return root;
+ }
+ tmp = newelement (root->func, root->nbops, root->prio);
+ tmp->value = root->value;
+ for (i = 0; i < root->nbops; i++) {
+ tmp->ops[i] = dupelement (root->ops[i]);
+ }
+ return tmp;
+}
+
/* functions */
-#define NB_OPERATORS 7
+#define MAX_ARGS 100
+#define NB_OPERATORS 14
keyword_t operators[NB_OPERATORS] = {
- { "+ ", Add, 2, 1 },
- { "+\t", Add, 2, 1 },
- { "- ", Sub, 2, 1 },
- { "- ", Sub, 2, 1 },
- { "*", Mul, 2, 1 },
- { "/", Div, 2, 1 },
- { "^", Pow, 2, 1 }
+ { "+\t", Add, 2, 1, 1},
+ { "-\t", Sub, 2, 1, 1},
+ { "*", Mul, 2, 1, 2},
+ { "/", Div, 2, 1, 2},
+ { "%", Mod, 2, 1, 3},
+ { "^", Pow, 2, 1, 4},
+ { "==", Equal, 2, 2, -1},
+ { "!=", Diff, 2, 2, -1},
+ { ">=", Ge, 2, 2, -1},
+ { "<=", Le, 2, 2, -1},
+ { ">", Gt, 2, 1, -1},
+ { "<", Lt, 2, 1, -1},
+ { "&", And, 2, 1, -2},
+ { "|", Or, 2, 1, -2}
};
-#define NB_FUNCTIONS 7
+#define NB_FUNCTIONS 50
keyword_t functions[NB_FUNCTIONS] = {
- { "sqrt", Sqr, 1, 4 },
- { "pow", Pow, 2, 3 },
- { "cos", Cos, 1, 3 },
- { "sin", Sin, 1, 3 },
- { "atan", Atn, 1, 4 },
- { "exp", Exp, 1, 3 },
- { "log", Log, 1, 3 }
+ { "sqrt", Sqr, 1, 4, 5},
+ { "pow", Pow, 2, 3, 5},
+ { "cos", Cos, 1, 3, 5},
+ { "sin", Sin, 1, 3, 5},
+ { "tan", Tan, 1, 3, 5},
+ { "acos", Acos, 1, 4, 5},
+ { "asin", Asin, 1, 4, 5},
+ { "atan", Atan, 1, 4, 5},
+ { "ln", Ln, 1, 2, 5},
+ { "log", Log, 1, 3, 5},
+ { "exp", Exp, 1, 3, 5},
+ { "erfc", Erfc, 1, 4, 5},
+ { "erf", Erf, 1, 3, 5},
+ { "abs", Abs, 1, 3, 5},
+ { "floor", Floor, 1, 5, 5},
+ { "ceil", Ceil, 1, 4, 5},
+ { "sto", Store, 2, 3, 5},
+ { "rcl", Recall, 1, 3, 5},
+ { "inc", Inc, 1, 3, 5},
+ { "dec", Dec, 1, 3, 5},
+ { "disp", Disp, 0, 4, 9},
+ { "mem", Mem, 1, 3, 5},
+ { "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},
+ { "prog", Prog, 2, 4, 9},
+ { "arg", Arg, 1, 3, 5},
+ { "call", Call, MAX_ARGS, 4, 5},
+ { "ls", List, 0, 2, 9},
+ { "edit", Edit, 1, 4, 9},
+ { "del", Del, 1, 3, 9},
+ { "get", Get, 1, 3, 5},
+ { "len", Length, 0, 3, 5},
+ { "pop", Pop, 0, 3, 5},
+ { "push", Push, 1, 4, 5},
+ { "put", Put, 2, 3, 5},
+ { "set", Set, MAX_ARGS, 3, 5},
+ { "show", Show, 0, 4, 5},
+ { "max", Max, 2, 3, 5},
+ { "mean", Mean, 2, 4, 5},
+ { "med", Median, 0, 3, 5},
+ { "min", Min, 2, 3, 5},
+ { "ord", Order, 0, 3, 5},
+ { "prod", Prod, 0, 4, 5},
+ { "sum", Sum, 0, 3, 5},
+ { "var", Variance, 2, 3, 5},
+};
+
+#define NB_CONSTANTS 3
+keyword_t constants[NB_CONSTANTS] = {
+ { "ans", Ans, 0, 3, 5},
+ { "e", E, 0, 1, 5},
+ { "pi", Pi, 0, 2, 5}
+};
+
+#define NB_SYMBOLS 4
+char *symbols[NB_SYMBOLS] = {
+ "(", ")", "{", "}"
};
+/* subparser function */
+
+element_t *subparser (element_t **proot, char **pstr, func_t func, int nbops, int prio)
+{
+ element_t *new = newelement (func, nbops, prio);
+ new->ops[0] = *proot;
+ new->ops[1] = parser (*pstr, pstr, new->prio);
+ if ((new->ops[1] == NULL) || ((new->ops[1] != ERROR_OP) && (new->ops[1]->prio == 9))) {
+ delelement (new->ops[1]);
+ new->ops[1] = ERROR_OP;
+ }
+ if (new->ops[1] == ERROR_OP) {
+ delelement (new);
+ *proot = NULL;
+ return ERROR_OP;
+ }
+ *proot = newelement (Val, 1, 5);
+ (*proot)->ops[0] = new;
+
+ return *proot;
+}
+
/* parser function */
-element_t *parser (char *str, char **next)
+element_t *parser (char *str, char **next, int prio)
{
element_t *root = NULL;
- int i, j;
+ char *string = str;
+ int i;
+
+ VERBOSE (DEBUG, fprintf (stdout, "Starting parsing\n"));
/* main loop */
while (*str != '\0') {
int found = 0;
element_t *new = NULL;
- VERBOSE (DEBUG, PRINTOUT ("Processing: %s\n", str));
+ VERBOSE (INFO, fprintf (stdout, "Processing: %s\n", str));
+
+ /* end without printing */
+
+ if (*str == ';') {
+ if (root) {
+ root->hidden = 1;
+ }
+ break;
+ }
/* skip spaces and tabs */
continue;
}
- /* skip commas */
+ /* check for open brace */
+
+ if (*str == '{') {
+ VERBOSE (DEBUG, fprintf (stdout, "start processing brace\n"));
+ if (root != NULL) {
+ delelement (root);
+ return ERROR_OP;
+ }
+ root = newelement (Code, 0, 5);
+
+ do {
+ new = parser (str + 1, &str, 0);
+ if ((new == NULL) || ((new != ERROR_OP) && (new->prio == 9))) {
+ delelement (new);
+ new = ERROR_OP;
+ }
+ if (new == ERROR_OP) {
+ delelement (root);
+ return ERROR_OP;
+ }
+ element_t *newcode = newelement (Code, root->nbops + 1, 5);
+ for (i = 0; i < root->nbops; i++) {
+ newcode->ops[i] = root->ops[i];
+ root->ops[i] = NULL;
+ }
+ newcode->ops[root->nbops] = new;
+ delelement (root);
+ root = newcode;
+ } while (*str == ',');
- if (*str == ',') {
- if (root == NULL) {
+ if (*str != '}') {
+ delelement (root);
return ERROR_OP;
- } else if (root->func != Set) {
- new = newelement (Set, MAX_OPERANDS);
- new->ops[0] = root;
- root = new;
}
str++;
+ VERBOSE (DEBUG, fprintf (stdout, "stop processing brace\n"));
continue;
}
- /* check for parent */
+ /* check for open bracket */
- if (*str == ')') {
- if (next != NULL) {
- *next = str + 1;
- }
- return root;
- }
if (*str == '(') {
- new = parser (str + 1, &str);
- if (new == (void *)(-1)) {
- return new;
- }
+ VERBOSE (DEBUG, fprintf (stdout, "start processing bracket\n"));
if (root) {
- for (i = 0, j = 0; i < root->nbops; i++) {
- if (root->ops[i] == NULL) {
- if (new->func == Set) {
- root->ops[i] = new->ops[j++];
- if (new->ops[j] == NULL) {
- found = 1;
- break;
- }
- } else {
+ do {
+ found = 0;
+ new = parser (str + 1, &str, 0);
+ if ((new == NULL) || ((new != ERROR_OP) && (new->prio == 9))) {
+ delelement (new);
+ new = ERROR_OP;
+ }
+ if ((new == NULL) || (new == ERROR_OP)) {
+ delelement (root);
+ return ERROR_OP;
+ }
+ for (i = 0; i < root->nbops; i++) {
+ if (root->ops[i] == NULL) {
root->ops[i] = new;
found = 1;
break;
}
}
+ if (!found) {
+ delelement (new);
+ delelement (root);
+ return ERROR_OP;
+ }
+ } while (*str == ',');
+ } else {
+ root = newelement (Val, 1, 5);
+ new = parser (str + 1, &str, 0);
+ if ((new == NULL) || ((new != ERROR_OP) && (new->prio == 9))) {
+ delelement (new);
+ new = ERROR_OP;
}
- if (!found) {
+ if ((new == NULL) || (new == ERROR_OP) || (*str == ',')) {
+ delelement (new);
+ delelement (root);
return ERROR_OP;
}
- } else {
- return root;
+ root->ops[0] = new;
+ }
+ if (*str != ')') {
+ delelement (root);
+ return ERROR_OP;
}
+ str++;
+ VERBOSE (DEBUG, fprintf (stdout, "stop processing bracket\n"));
+ continue;
+ }
+
+ /* check for closing bracket, closing brace or koma */
+
+ if ((*str == ')') || (*str == '}') || (*str == ',')) {
+ if (prio == -9) {
+ delelement (root);
+ return ERROR_OP;
+ }
+ if (next != NULL) {
+ *next = str;
+ }
+ return root;
}
/* look for operators */
for (i = 0; i < NB_OPERATORS; i++) {
keyword_t *operator = operators + i;
if (codecmp (operator->keyword, str) == 0) {
- if ((root) && (root->func == Val)) {
- VERBOSE (DEBUG, PRINTOUT ("Oper: %d\n", operator->func));
- new = newelement (operator->func, operator->nbops);
- if (new == NULL) {
+ VERBOSE (DEBUG, fprintf (stdout, "start processing operator\n"));
+ if ((root) && (root->prio == 9)) {
+ VERBOSE (DEBUG, fprintf (stdout, "terminal function (%d)\n", root->func));
+ delelement (root);
+ return ERROR_OP;
+ } else if (root) {
+ if ((prio) && (prio > operator->prio)) {
+ VERBOSE (DEBUG, fprintf (stdout, "stop because operator priority\n"));
+ *next = str;
+ return root;
+ }
+ str += operator->offset;
+ VERBOSE (INFO, fprintf (stdout, "Oper: %d\n", operator->func));
+ if (subparser (&root, &str, operator->func, operator->nbops, operator->prio) == ERROR_OP) {
+ delelement (root);
return ERROR_OP;
}
- new->ops[0] = root;
- root = new;
- } else {
+ } else if (*str == '-') {
+ root = newelement (Sig, 1, 6);
+ } else {
return ERROR_OP;
}
- str += operator->offset;
found = 1;
+ VERBOSE (DEBUG, fprintf (stdout, "stop processing operator\n"));
break;
}
}
if (found) {
- VERBOSE (DEBUG, PRINTOUT ("stop processing operator\n"));
continue;
}
-
+
/* look for functions */
for (i = 0; i < NB_FUNCTIONS; i++) {
keyword_t *function = functions + i;
if (codecmp (function->keyword, str) == 0) {
+ VERBOSE (DEBUG, fprintf (stdout, "start processing function\n"));
if (root == NULL) {
- VERBOSE (DEBUG, PRINTOUT ("Func: %d\n", function->func));
- new = newelement (function->func, function->nbops);
- if (new == NULL) {
- return ERROR_OP;
- }
- root = new;
- } else {
+ VERBOSE (INFO, fprintf (stdout, "Func: %d\n", function->func));
+ root = newelement (function->func, function->nbops, function->prio);
+ } else {
+ delelement (root);
return ERROR_OP;
}
str += function->offset;
found = 1;
+ VERBOSE (DEBUG, fprintf (stdout, "stop processing function\n"));
break;
}
}
if (found) {
- VERBOSE (DEBUG, PRINTOUT ("stop processing function\n"));
continue;
}
- /* last attend to detect addition and substraction */
+ /* look for constant */
- if (((*str == '-') || (*str == '+')) &&
- ((*(str + 1) >= '0') && (*(str + 1) <= '9')) &&
- ((root) && (root->func == Val))) {
- VERBOSE (DEBUG, PRINTOUT ("Oper: %d\n", Add));
- new = newelement (Add, 2);
- if (new == NULL) {
- return ERROR_OP;
+ for (i = 0; i < NB_CONSTANTS; i++) {
+ keyword_t *constant = constants + i;
+ if (codecmp (constant->keyword, str) == 0) {
+ VERBOSE (DEBUG, fprintf (stdout, "start processing constant\n"));
+ if (root == NULL) {
+ VERBOSE (INFO, fprintf (stdout, "Const: %d\n", constant->func));
+ root = newelement (constant->func, constant->nbops, constant->prio);
+ } else {
+ delelement (root);
+ return ERROR_OP;
+ }
+ str += constant->offset;
+ found = 1;
+ VERBOSE (DEBUG, fprintf (stdout, "stop processing constant\n"));
+ break;
}
- new->ops[0] = root;
- root = new;
+ }
+ if (found) {
+ continue;
}
/* look for number */
if (((*str >= '0') && (*str <= '9')) ||
- (*str == '.') || (*str == '-') ||(*str == '+')) {
+ (*str == '.') || (*str == '+') || (*str == '-')) {
+ VERBOSE (DEBUG, fprintf (stdout, "start processing value\n"));
char *pt;
- float value = strtof (str, &pt);
- VERBOSE (DEBUG, PRINTOUT ("Value: %f\n", value));
+ double value = strtod (str, &pt);
+ VERBOSE (INFO, fprintf (stdout, "Value: %f\n", value));
if (str != pt) {
- new = newelement (Val, 1);
- new->value = value;
- if (new == NULL) {
- return ERROR_OP;
- }
- if (root == NULL) {
- root = new;
- } else {
- if (root->func == Val) {
- element_t *set = newelement (Set, MAX_OPERANDS);
- if (set == NULL) {
+ if ((root == NULL) || (root->prio == 6)) {
+ new = newelement (Val, 1, 5);
+ new->value = value;
+ if (root == NULL) {
+ root = new;
+ } else {
+ for (i = 0; i < root->nbops; i++) {
+ if (root->ops[i] == NULL) {
+ root->ops[i] = new;
+ found = 1;
+ break;
+ }
+ }
+ if (!found) {
+ delelement (new);
+ delelement (root);
return ERROR_OP;
}
- set->ops[0] = root;
- root = set;
}
- for (i = 0; i < root->nbops; i++) {
- if (root->ops[i] == NULL) {
- root->ops[i] = new;
- found = 1;
- break;
- }
+ str = pt;
+ } else if ((*str == '+') || (*str == '-')) {
+ if ((prio) && (prio > 1)) {
+ VERBOSE (DEBUG, fprintf (stdout, "stop because operator priority\n"));
+ *next = str;
+ return root;
}
- if (!found) {
+ if (subparser (&root, &str, Add, 2, 1) == ERROR_OP) {
+ delelement (root);
return ERROR_OP;
}
+ } else {
+ delelement (root);
+ return ERROR_OP;
}
- str = pt;
found = 1;
}
+ VERBOSE (DEBUG, fprintf (stdout, "stop processing value\n"));
}
/* error */
if (!found) {
+ delelement (root);
return ERROR_OP;
}
}
+ if (next != NULL) {
+ *next = str;
+ }
+
+ /* save string */
+ if (root != NULL) {
+ root->string = string;
+ }
+
return root;
}
char *func = NULL;
int i;
- if (root == NULL)
+ if ((root == NULL) || (root == ERROR_OP)) {
return;
-
+ }
+
for (i = 0; i < level; i++) {
- PRINTOUT (" ");
+ fprintf (stdout, " ");
}
switch (root->func) {
case Val: func = "Value"; break;
- case Set: func = "Set"; break;
+ case Sig: func = "Sign"; break;
case Add: func = "Addition"; break;
case Sub: func = "Subtraction"; break;
case Mul: func = "Multiplication"; break;
case Div: func = "Division"; break;
+ case Mod: func = "Modulo"; break;
case Pow: func = "Power"; break;
case Sqr: func = "Square Root"; break;
case Cos: func = "Cosine"; break;
case Sin: func = "Sine"; break;
- case Atn: func = "Arc Tangent"; break;
- case Log: func = "Logarithm"; break;
+ case Tan: func = "Tangent"; break;
+ case Acos: func = "Arc Cosine"; break;
+ case Asin: func = "Arc Sine"; break;
+ case Atan: func = "Arc Tangent"; break;
+ case Ln: func = "Logarithm (natural)"; break;
+ case Log: func = "Logarithm (10 base)"; break;
case Exp: func = "Exponantial"; break;
+ case Erfc: func = "Complementary Error Function"; break;
+ case Erf: func = "Error Function"; break;
+ case Abs: func = "Absolute value"; break;
+ case Ceil: func = "Ceil value"; break;
+ case Floor: func = "Floor value"; break;
+ case Store: func = "Store"; break;
+ case Recall: func = "Recall"; break;
+ 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 Pi: func = "Pi"; break;
+ case E: func = "E"; break;
+ case Equal: func = "Equal"; break;
+ case Diff: func = "Different"; break;
+ case Ge: func = "Greater or equal"; break;
+ case Le: func = "Lesser or equal"; break;
+ case Gt: func = "Greater"; break;
+ case Lt: func = "Lesser"; break;
+ case And: func = "And"; break;
+ case Or: func = "Or"; break;
+ case Not: func = "Not"; break;
+ case Cond: func = "Condition"; break;
+ case While: func = "While"; break;
+ case Code: func = "Code"; break;
+ case Print: func = "Print"; break;
+ case Prog: func = "Program"; break;
+ case Arg: func = "Argument"; break;
+ case Call: func = "Call"; break;
+ case List: func = "List"; break;
+ case Edit: func = "Edit"; break;
+ case Del: func = "Del"; break;
+ case Get: func = "Get"; break;
+ case Length: func = "Length"; break;
+ case Pop: func = "Pop"; break;
+ case Push: func = "Push"; break;
+ case Put: func = "Put"; break;
+ case Set: func = "Set"; break;
+ case Show: func = "Show"; break;
+ case Max: func = "Maximum"; break;
+ case Mean: func = "Mean"; break;
+ case Median: func = "Median"; break;
+ case Min: func = "Minimum"; break;
+ case Order: func = "Order"; break;
+ case Prod: func = "Product"; break;
+ case Sum: func = "Sum"; break;
+ case Variance: func = "Variance"; break;
}
- PRINTOUT ("Function: %s\n", func);
+ fprintf (stdout, "Function: %s\n", func);
- if (root->func == Val) {
+ if ((root->func == Val) && (root->ops[0] == NULL)) {
for (i = 0; i < level; i++) {
- PRINTOUT (" ");
+ fprintf (stdout, " ");
}
- PRINTOUT ("value: %f\n", root->value);
+ fprintf (stdout, "value: %f\n", root->value);
} else {
for (i = 0; i < root->nbops; i++) {
print_element (root->ops[i], level + 1);
}
}
+/* 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 *) callocordie (nb, sizeof (double));
+ 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 (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) [%d, %d]\n", index, (storage_size) ? 1 : 0, storage_size));
+ }
+ return value;
+}
+
+double recall (int index)
+{
+ 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) [%d, %d]\n", index, (storage_size) ? 1 : 0, storage_size));
+ }
+ return 0;
+}
+
+double increase (int index)
+{
+ 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) [%d, %d]\n", index, (storage_size) ? 1 : 0, storage_size));
+ }
+ return 0;
+}
+
+double decrease (int index)
+{
+ 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) [%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, " ");
+ 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)
+{
+ double ret = 0;
+ element_t *temp = NULL;
+
+ VERBOSE (DEBUG, fprintf (stdout, "starting while loop\n"));
+ while (1) {
+ VERBOSE (DEBUG, fprintf (stdout, "loop...\n"));
+
+ temp = dupelement (cond);
+ double test = evaluate_element (temp, 0);
+ delelement (temp);
+ if (!test) {
+ break;
+ }
+ if (action) {
+ temp = dupelement (action);
+ ret = evaluate_element (temp, 0);
+ delelement (temp);
+ }
+ }
+
+ VERBOSE (DEBUG, fprintf (stdout, "ending while loop\n"));
+
+ return ret;
+}
+
+/* program function */
+
+double execute_code (element_t **prog, int nbcalls)
+{
+ double ret = 0;
+ int i;
+ for (i = 0; i < nbcalls; i++) {
+ ret = evaluate_element (prog[i], 0);
+ }
+ 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)
+{
+ fprintf (stdout, "bye\n");
+ exit (0);
+}
+
+/* program function */
+
+void prog (int id, element_t *root)
+{
+ int i, n = -1;
+
+ if (programs == NULL) {
+
+ /* initial memory allocation */
+ programs = (workspace_t *) callocordie (1, sizeof (workspace_t));
+ 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++;
+ workspace_t *tmp = (workspace_t *) callocordie (nb_programs, sizeof (workspace_t));
+ memcpy (tmp, programs, (nb_programs - 1) * sizeof (workspace_t));
+ free (programs);
+ programs = tmp;
+ } else {
+
+ /* clean old program */
+ if ((programs + n)->storage) {
+ free ((programs + n)->storage);
+ }
+ if ((programs + n)->stack) {
+ free ((programs + n)->stack);
+ }
+ if ((programs + n)->root) {
+ delelement ((programs + n)->root);
+ }
+ if ((programs + n)->string) {
+ free ((programs + n)->string);
+ (programs + n)->string = NULL;
+ }
+ }
+ }
+
+ /* set program */
+ (programs + n)->id = id;
+ (programs + n)->answer = 0;
+ (programs + n)->storage = NULL;
+ (programs + n)->storage_size = 0;
+ (programs + n)->stack = NULL;
+ (programs + n)->stack_size = 0;
+ (programs + n)->root = dupelement (root);
+}
+
+double arg (int id)
+{
+ double ret = 0;
+ if ((id <= 0) || (id > argument_size)) {
+ VERBOSE (WARNING, fprintf (stdout, "error out of bound (%d/%d)\n", id, argument_size));
+ } else {
+ ret = argument[id - 1];
+ }
+ return ret;
+}
+
+double call (int id, int nbargs, element_t **args)
+{
+ workspace_t tmp = {0};
+ int i, l, 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.argument = argument;
+ tmp.argument_size = argument_size;
+ tmp.storage = storage;
+ tmp.storage_size = storage_size;
+ tmp.stack = stack;
+ tmp.stack_size = stack_size;
+
+ /* change context */
+ answer = 0;
+ storage = (programs + n)->storage;
+ storage_size = (programs + n)->storage_size;
+ argument = NULL;
+ argument_size = 0;
+ stack = (programs + n)->stack;
+ stack_size = (programs + n)->stack_size;
+ if (nbargs > 0) {
+ argument = (double *) callocordie (nbargs, sizeof (double));
+ for (i = 0, l = 0; i < nbargs; l++) {
+ if (args[l]) {
+ argument[i++] = evaluate_element (args[l], 0);
+ }
+ }
+ argument_size = nbargs;
+ }
+
+ /* evaluate program */
+ element_t *elements = dupelement ((programs + n)->root);
+ ret = evaluate_element (elements, 0);
+ delelement (elements);
+ (programs + n)->answer = answer;
+ (programs + n)->storage = storage;
+ (programs + n)->storage_size = storage_size;
+ if (argument) {
+ free (argument);
+ }
+ (programs + n)->stack = stack;
+ (programs + n)->stack_size = stack_size;
+
+ /* restore context */
+ answer = tmp.answer;
+ storage = tmp.storage;
+ storage_size = tmp.storage_size;
+ argument = tmp.argument;
+ argument_size = tmp.argument_size;
+ stack = tmp.stack;
+ stack_size = tmp.stack_size;
+
+ return ret;
+}
+
+void list ()
+{
+ int i;
+ fprintf (stdout, "programs:");
+ for (i = 0; i < nb_programs; i++) {
+ fprintf (stdout, " %d", (programs + i)->id);
+ }
+ fprintf (stdout, "\n");
+}
+
+void edit (int id)
+{
+ int i, n = -1;
+
+ 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;
+ }
+
+ /* set string program */
+ fprintf (stdout, "edit: %s\n", (programs + n)->string);
+}
+
+void savestring (int id, char *string)
+{
+ int i, n = -1;
+
+ if (programs) {
+
+ /* look for program */
+ for (i = 0; i < nb_programs; i++) {
+ if ((programs + i)->id == id) {
+ n = i;
+ break;
+ }
+ }
+ }
+
+ /* unnecesary code */
+ //if (n == -1) {
+ // VERBOSE (WARNING, fprintf (stdout, "error unknown program (%d)\n", id));
+ // return;
+ //}
+ //if ((programs + n)->string) {
+ // free ((programs + n)->string);
+ //}
+
+ if (string) {
+ (programs + n)->string = strdup (string);
+ }
+}
+
+void del (int id)
+{
+ int i, j, n = -1;
+
+ 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;
+ }
+
+ /* clean program */
+ if ((programs + n)->storage) {
+ free ((programs + n)->storage);
+ }
+ if ((programs + n)->stack) {
+ free ((programs + n)->stack);
+ }
+ if ((programs + n)->root) {
+ delelement ((programs + n)->root);
+ }
+ if ((programs + n)->string) {
+ free ((programs + n)->string);
+ }
+
+ /* remove entry */
+ workspace_t *tmp = (workspace_t *) callocordie (nb_programs - 1, sizeof (workspace_t));
+ for (i = 0, j = 0; i < nb_programs; i++) {
+ if (i != n) {
+ memcpy (tmp + j, programs + i, sizeof (workspace_t));
+ j++;
+ }
+ }
+ free (programs);
+ programs = tmp;
+ nb_programs--;
+}
+
+/* stack management */
+
+double get (int n)
+{
+ double ret = 0;
+ if ((n <= 0) || (n > stack_size)) {
+ VERBOSE (WARNING, fprintf (stdout, "error out of bound (%d/%d)\n", n, stack_size));
+ } else {
+ ret = stack[n - 1];
+ }
+ return ret;
+}
+
+double length ()
+{
+ return stack_size;
+}
+
+double pop ()
+{
+ double ret = 0;
+ if (stack_size > 0) {
+ ret = stack[--stack_size];
+ double *tmp = (double *) callocordie (stack_size, sizeof (double));
+ memcpy (tmp, stack, stack_size * sizeof (double));
+ free (stack);
+ stack = tmp;
+ } else {
+ VERBOSE (WARNING, fprintf (stdout, "error stack empty\n"));
+ }
+ return ret;
+}
+
+double push (double val)
+{
+ double *tmp = (double *) callocordie (stack_size + 1, sizeof (double));
+ memcpy (tmp, stack, stack_size * sizeof (double));
+ if (stack) {
+ free (stack);
+ }
+ stack = tmp;
+ stack[stack_size++] = val;
+ return val;
+}
+
+double put (int n, double val)
+{
+ if (n <= 0) {
+ VERBOSE (WARNING, fprintf (stdout, "error out of bound (%d/%d)\n", n, stack_size));
+ return 0;
+ }
+ if (n > stack_size) {
+ double *tmp = (double *) callocordie (n, sizeof (double));
+ memcpy (tmp, stack, stack_size * sizeof (double));
+ free (stack);
+ stack = tmp;
+ stack_size = n;
+ }
+ stack[n - 1] = val;
+ return val;
+}
+
+double set (int nbops, element_t **ops)
+{
+ int i;
+ if (stack) {
+ free (stack);
+ }
+ stack = NULL;
+ stack_size = 0;
+ if (nbops != 0) {
+ stack = (double *) callocordie (nbops, sizeof (double));
+ for (i = 0; i < nbops; i++) {
+ stack[i] = evaluate_element (ops[i], 0);
+ }
+ stack_size = nbops;
+ }
+ return stack_size;
+}
+
+void show (void)
+{
+ int i;
+ fprintf (stdout, "stack:");
+ for (i = 0; i < stack_size; i++) {
+ fprintf (stdout, " ");
+ fprintf (stdout, minform, stack[i]);
+ }
+ fprintf (stdout, "\n");
+}
+
+/* stack functions */
+
+double max ()
+{
+ double ret = 0;
+ int i;
+ if (stack_size < 1) {
+ VERBOSE (WARNING, fprintf (stdout, "error not enough element in stack (%d)\n", stack_size));
+ return 0;
+ }
+ ret = stack[0];
+ for (i = 1; i < stack_size; i++) {
+ if (stack[i] > ret) {
+ ret = stack[i];
+ }
+ }
+ return ret;
+}
+
+double mean ()
+{
+ double ret = 0;
+ int i;
+ if (stack_size < 1) {
+ VERBOSE (WARNING, fprintf (stdout, "error not enough element in stack (%d)\n", stack_size));
+ return 0;
+ }
+ for (i = 0; i < stack_size; i++) {
+ ret += stack[i];
+ }
+ return ret / stack_size;
+}
+
+double min ()
+{
+ double ret = 0;
+ int i;
+ if (stack_size < 1) {
+ VERBOSE (WARNING, fprintf (stdout, "error not enough element in stack (%d)\n", stack_size));
+ return 0;
+ }
+ ret = stack[0];
+ for (i = 1; i < stack_size; i++) {
+ if (stack[i] < ret) {
+ ret = stack[i];
+ }
+ }
+ return ret;
+}
+
+void order ()
+{
+ int i, j;
+ if (stack_size < 1) {
+ VERBOSE (WARNING, fprintf (stdout, "error not enough element in stack (%d)\n", stack_size));
+ return;
+ }
+ for (i = 0; i < stack_size - 1; i++) {
+ int done = 0;
+ for (j = 0; j < stack_size - 1; j++) {
+ if (stack[j] > stack[j + 1]) {
+ double tmp = stack[j];
+ stack[j] = stack[j + 1];
+ stack[j + 1] = tmp;
+ done = 1;
+ }
+ }
+ if (done == 0) {
+ break;
+ }
+ }
+}
+
+double median ()
+{
+ double ret = 0;
+ if (stack_size < 3) {
+ VERBOSE (WARNING, fprintf (stdout, "error not enough element in stack (%d)\n", stack_size));
+ return 0;
+ }
+ double *tmp = (double *) callocordie (stack_size, sizeof (double));
+ memcpy (tmp, stack, stack_size * sizeof (double));
+ order ();
+ ret = stack[(stack_size - 1)/ 2];
+ memcpy (stack, tmp, stack_size * sizeof (double));
+ free (tmp);
+ return ret;
+}
+
+double prod ()
+{
+ double ret = 1;
+ int i;
+ if (stack_size < 1) {
+ VERBOSE (WARNING, fprintf (stdout, "error not enough element in stack (%d)\n", stack_size));
+ return 0;
+ }
+ for (i = 0; i < stack_size; i++) {
+ ret *= stack[i];
+ }
+ return ret;
+}
+
+double sum ()
+{
+ double ret = 0;
+ int i;
+ if (stack_size < 1) {
+ VERBOSE (WARNING, fprintf (stdout, "error not enough element in stack (%d)\n", stack_size));
+ return 0;
+ }
+ for (i = 0; i < stack_size; i++) {
+ ret += stack[i];
+ }
+ return ret;
+}
+
+double variance ()
+{
+ double ret = 0;
+ double m = 0;
+ int i;
+ if (stack_size < 2) {
+ VERBOSE (WARNING, fprintf (stdout, "error not enough element in stack (%d)\n", stack_size));
+ return 0;
+ }
+ m = mean ();
+ for (i = 0; i < stack_size; i++) {
+ ret += (stack[i] - m) * (stack[i] - m);
+ }
+ return ret / stack_size;
+}
+
+
+/* help message */
+
+void help (void)
+{
+ fprintf (stdout, "calc is a simple calculator\n\n");
+ fprintf (stdout, "arithmetic op.:");
+ fprintf (stdout, " + - * / %% ^\n");
+ fprintf (stdout, "comparison op.:");
+ fprintf (stdout, " == != >= <= > <\n");
+ fprintf (stdout, "logical op.:");
+ fprintf (stdout, " & | !\n");
+ fprintf (stdout, "mathematic func.:");
+ fprintf (stdout, " exp ln log pow sqrt\n");
+ fprintf (stdout, "trigonometric func.:");
+ fprintf (stdout, " acos asin atan cos sin tan\n");
+ fprintf (stdout, "error functions:");
+ fprintf (stdout, " erf erfc\n");
+ fprintf (stdout, "miscellaneous func.:");
+ fprintf (stdout, " abs ceil floor\n");
+ fprintf (stdout, "storage func.:");
+ fprintf (stdout, " clear dec disp inc mem rcl sto\n");
+ fprintf (stdout, "control flow prim.:");
+ fprintf (stdout, " cond print while {} ;\n");
+ fprintf (stdout, "program management:");
+ fprintf (stdout, " arg call del edit ls prog\n");
+ fprintf (stdout, "stack management:");
+ fprintf (stdout, " get len pop push put set show\n");
+ fprintf (stdout, "stack func.:");
+ fprintf (stdout, " max mean med min ord prod sum var\n");
+ fprintf (stdout, "control management:");
+ fprintf (stdout, " help quit\n");
+ fprintf (stdout, "constants:");
+ fprintf (stdout, " ans e pi\n");
+}
+
+/* evaluate element tree */
+
+#define MASK_SUB 0x1
+#define MASK_DIV 0x2
+
+double evaluate_element (element_t *root, char mask)
+{
+ 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"));
+ return 0;
+ }
+
+ /* mask to manage sub operator sub and div */
+ switch (root->func) {
+ case Add:
+ nextmask &= ~MASK_SUB;
+ nextmask &= ~MASK_DIV;
+ break;
+ case Sub:
+ nextmask |= MASK_SUB;
+ nextmask &= ~MASK_DIV;
+ break;
+ case Mul:
+ nextmask &= ~MASK_DIV;
+ break;
+ case Div:
+ nextmask |= MASK_DIV;
+ break;
+ default:
+ nextmask = mask;
+ }
+
+ switch (root->func) {
+ case Val:
+ case Sig:
+ op0 = (root->ops[0]) ? evaluate_element (root->ops[0], nextmask) : root->value;
+ break;
+ case Add:
+ case Sub:
+ case Mul:
+ case Div:
+ case Mod:
+ case Pow:
+ case Store:
+ case Equal:
+ case Diff:
+ case Ge:
+ case Le:
+ case Gt:
+ case Lt:
+ case And:
+ case Or:
+ if (root->ops[1]) {
+ op1 = evaluate_element (root->ops[1], nextmask);
+ } else if (root->func != Store) {
+ VERBOSE (WARNING, fprintf (stdout, "error while evaluating (op[1])\n"));
+ return 0;
+ }
+ /* fallthrough */
+ case Sqr:
+ case Cos:
+ case Sin:
+ case Tan:
+ case Acos:
+ case Asin:
+ case Atan:
+ case Ln:
+ case Log:
+ case Exp:
+ case Erfc:
+ case Erf:
+ case Abs:
+ case Ceil:
+ case Floor:
+ case Recall:
+ case Inc:
+ case Dec:
+ case Not:
+ case Mem:
+ case Cond:
+ case Prog:
+ case Arg:
+ case Call:
+ case Edit:
+ case Del:
+ case Get:
+ if (root->ops[0]) {
+ op0 = evaluate_element (root->ops[0], 0);
+ } else {
+ VERBOSE (WARNING, fprintf (stdout, "error while evaluating (op[0])\n"));
+ return 0;
+ }
+ break;
+ case Disp:
+ case Clear:
+ case Quit:
+ case Help:
+ case Ans:
+ case Pi:
+ case E:
+ case Code:
+ case List:
+ case Length:
+ case Pop:
+ case Set:
+ case Show:
+ case Median:
+ case Order:
+ case Prod:
+ case Sum:
+ break;
+ case While:
+ if (root->ops[0] == NULL) {
+ VERBOSE (WARNING, fprintf (stdout, "error while evaluating (op[0])\n"));
+ return 0;
+ }
+ break;
+ case Push:
+ case Print:
+ op0 = (root->ops[0]) ? evaluate_element (root->ops[0], 0) : answer;
+ break;
+ case Put:
+ if (root->ops[0]) {
+ op0 = evaluate_element (root->ops[0], 0);
+ } else {
+ VERBOSE (WARNING, fprintf (stdout, "error while evaluating (op[0])\n"));
+ return 0;
+ }
+ op1 = (root->ops[1]) ? evaluate_element (root->ops[1], 0) : answer;
+ break;
+ case Max:
+ case Mean:
+ case Min:
+ case Variance:
+ if (root->ops[0]) {
+ op0 = evaluate_element (root->ops[0], 0);
+ op1 = (root->ops[1]) ? evaluate_element (root->ops[1], 0) : answer;
+ }
+ }
+
+ switch (root->func) {
+ case Val: return op0;
+ case Sig: return -op0;
+ case Add: return ((mask & MASK_SUB) == 0) ? op0 + op1 : op0 - op1;
+ case Sub: return ((mask & MASK_SUB) == 0) ? op0 - op1 : op0 + op1;
+ case Mul: return ((mask & MASK_DIV) == 0) ? op0 * op1 : op0 / op1;
+ case Div: return ((mask & MASK_DIV) == 0) ? op0 / op1 : op0 * op1;
+ case Mod: return fmod (op0, op1);
+ case Pow: return pow (op0, op1);
+ case Sqr: return sqrt (op0);
+ case Cos: return cos (op0);
+ case Sin: return sin (op0);
+ case Tan: return tan (op0);
+ case Acos: return acos (op0);
+ case Asin: return asin (op0);
+ case Atan: return atan (op0);
+ case Ln: return log (op0);
+ case Log: return log10 (op0);
+ case Exp: return exp (op0);
+ case Erfc: return erfc (op0);
+ case Erf: return erf (op0);
+ case Abs: return fabs (op0);
+ case Ceil: return ceil (op0);
+ case Floor: return floor (op0);
+ case Store: return store ((int)op0, (op1) ? op1 : answer);
+ case Recall: return recall ((int)op0);
+ 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;
+ case Pi: return M_PI;
+ case E: return M_E;
+ case Equal: return op0 == op1;
+ case Diff: return op0 != op1;
+ case Ge: return op0 >= op1;
+ case Le: return op0 <= op1;
+ case Gt: return op0 > op1;
+ case Lt: return op0 < op1;
+ case And: return (op0 != 0) && (op1 != 0);
+ case Or: return (op0 != 0) || (op1 != 0);
+ case Not: return (op0 == 0);
+ case Cond:
+ if ((op0) && (root->ops[1])) {
+ return evaluate_element (root->ops[1], 0);
+ } else if ((!op0) && (root->ops[2])) {
+ return evaluate_element (root->ops[2], 0);
+ } else {
+ return 0;
+ }
+ case While: return while_do (root->ops[0], root->ops[1]);
+ case Code: return execute_code (root->ops, root->nbops);
+ case Print: return print (op0);
+ case Prog:
+ prog ((int)op0, root->ops[1]);
+ savestring ((int)op0, root->string);
+ break;
+ case Arg: return arg ((int)op0);
+ 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;
+ case Get: return get ((int)op0);
+ case Length: return length ();
+ case Pop: return pop ();
+ case Push: return push (op0);
+ case Put: return put ((int)op0, op1);
+ case Set:
+ for (i = 0, nb =0; i < root->nbops; i++) {
+ if (root->ops[i]) {
+ nb++;
+ }
+ }
+ return set (nb, root->ops);
+ case Show: show (); break;
+ case Max:
+ if (root->ops[0]) {
+ return op0 > op1 ? op0 : op1;
+ }
+ return max ();
+ case Mean:
+ if (root->ops[0]) {
+ return (op0 + op1) / 2;
+ }
+ return mean ();
+ case Median: return median ();
+ case Min:
+ if (root->ops[0]) {
+ return op0 < op1 ? op0 : op1;
+ }
+ return min ();
+ case Order: order (); break;
+ case Prod: return prod ();
+ case Sum: return sum ();
+ case Variance:
+ if (root->ops[0]) {
+ double m = (op0 + op1) / 2;
+ op0 -= m;
+ op1 -= m;
+ return op0 * op0 + op1 * op1;
+ }
+ return variance ();
+ }
+
+ return 0;
+}
+
+char **generate_completion_list ()
+{
+ int i, j, l = 0;
+ char **list = (char **) callocordie (NB_OPERATORS + NB_FUNCTIONS + NB_CONSTANTS + NB_SYMBOLS + 1, sizeof (char *));
+
+ for (i = 0; i < NB_OPERATORS; i++) {
+ list[l] = strdup ((operators + i)->keyword);
+ for (j = 0; j < (int)strlen (list[l]); j++) {
+ if (list[i][j] == '\t') {
+ list[i][j] = '\0';
+ }
+ }
+ if (list[l] != NULL) {
+ l++;
+ }
+ }
+
+ for (i = 0; i < NB_FUNCTIONS; i++) {
+ list[l] = strdup ((functions + i)->keyword);
+ if (list[l] != NULL) {
+ l++;
+ }
+ }
+
+ for (i = 0; i < NB_CONSTANTS; i++) {
+ list[l] = strdup ((constants + i)->keyword);
+ if (list[l] != NULL) {
+ l++;
+ }
+ }
+
+ for (i = 0; i < NB_SYMBOLS; i++) {
+ list[l] = strdup (symbols[i]);
+ if (list[l] != NULL) {
+ l++;
+ }
+ }
+
+ return (list);
+}
+
+void free_completion_list (char **list)
+{
+ int i;
+
+ if (list) {
+ for (i = 0; i < NB_OPERATORS + NB_FUNCTIONS + NB_CONSTANTS + NB_SYMBOLS + 1; i++) {
+ if (list[i] != NULL) {
+ free (list[i]);
+ }
+ }
+ free (list);
+ }
+}
+
+
/* vim: set ts=4 sw=4 et: */
Soft'N'Design Software / projects / calc.git / blobdiff