forked from KolibriOS/kolibrios
d02111da4f
- Code refactoring - Optimization of code (for example, log2(n) searching) and memory usage - Some possible memory corruption fixed - Previous graph will be erased from window if error occured - Fixed bug with provided array of non-sorted points: so now you can pass points in any order - Fixed important bug with graphic rendering (big thanks to turbocat for asm rounding function) - Changed error messages; now you can see line/byte of file where syntax error is; added checking if provided frame of graph is invalid - Autochoosing of an optimal single step for both axises - Added support for reading any number of different functions. You will have to end previous function with ';' if you want to pass another one. They will be rendered on a graph in order you passed them. git-svn-id: svn://kolibrios.org@9778 a494cfbc-eb01-0410-851d-a64ba20cac60
438 lines
7.6 KiB
C
Executable File
438 lines
7.6 KiB
C
Executable File
#include <math.h>
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#include <string.h>
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#include <sys/ksys.h>
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#include "func.h"
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#include "parser.h"
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#define nullptr 0
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// token types
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#define DELIMITER 1
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#define VARIABLE 2
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#define NUMBER 3
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#define FUNCTION 4
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#define FINISHED 10
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// error codes
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#define ERR_BADFUNCTION -1
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#define ERR_BADNUMBER -2
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#define ERR_GENERAL -3
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#define ERR_NOBRACKET -4
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#define ERR_BADVARIABLE -5
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#define ERR_OVERFLOW -6
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//I guess it's not the best idea but we need pointers to functions anyway
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double sin_p(double d) {
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return sin(d);
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}
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double cos_p(double d) {
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return cos(d);
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}
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double exp_p(double d) {
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return exp(d);
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}
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double sqrt_p(double d) {
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return sqrt(d);
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}
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double log_p(double d) {
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return log(d);
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}
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double tan_p(double d) {
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return tan(d);
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}
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double ctg(double d) {
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return 1 / tan(d);
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}
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double asin_p(double d) {
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return asin(d);
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}
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double acos_p(double d) {
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return acos(d);
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}
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double atan_p(double d) {
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return atan(d);
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}
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double fabs_p(double d) {
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return fabs(d);
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}
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double sgn(double d) {
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if (d < 0) return -1;
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return 1;
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}
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double arcctg(double d) {
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return atan(1 / d);
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}
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double sec(double d) {
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return 1 / sin(d);
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}
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double cosec(double d) {
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return 1 / cos(d);
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}
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double log2_p(double d) {
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return log2(d);
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}
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double log10_p(double d) {
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return log10(d);
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}
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double log3(double d) {
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return log(d) / log(3);
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}
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// represents general mathematical function
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typedef double(*matfunc)(double);
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// used to link function name to the function
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typedef struct {
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char name[10];
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matfunc f;
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} func;
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// the list of functions
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#define MAX_FUNCS 26
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func functions[MAX_FUNCS] = {
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"", (matfunc)nullptr,
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"sin", (matfunc)&sin_p,
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"cos", (matfunc)&cos_p,
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"exp", (matfunc)&exp_p,
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"sqrt", (matfunc)&sqrt_p,
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"log", (matfunc)&log_p,
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"tg", (matfunc)&tan_p,
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"tan", (matfunc)&tan_p,
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"ctg", (matfunc)&ctg,
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"cot", (matfunc)&ctg,
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"arcsin", (matfunc)&asin_p,
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"arccos", (matfunc)&acos_p,
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"arctg", (matfunc)&atan_p,
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"arctan", (matfunc)&atan_p,
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"abs", (matfunc)&fabs_p,
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"sgn", (matfunc)&sgn,
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"arcctg", (matfunc)&arcctg,
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"arccot", (matfunc)&arcctg,
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"sec", (matfunc)&sec,
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"cosec", (matfunc)&cosec,
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"lb", (matfunc)&log2_p,
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"log2", (matfunc)&log2_p,
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"lg", (matfunc)&log10_p,
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"log10", (matfunc)&log10_p,
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"log3", (matfunc)&log3,
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"ln", (matfunc)&log_p
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};
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// all delimiters
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const char* delim="+-*^/%=;(),><"; // not bad words
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// structure for most parser functions
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char token[80];
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int token_type;
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char* prog;
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double x_value;
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int code; // error code
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int isdelim(char c) {
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//return strchr(delim, c) != 0;
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for (int i = 0; i < 14; i++)
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if (c == delim[i])
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return 1;
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return 0;
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}
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int isdigit(char c) {
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return (c >= '0' && c <= '9');
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}
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int isalpha2(char c) {
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return ((c >= 'a' && c <= 'z')
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|| (c >= 'A' && c <= 'Z'));
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}
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int iswhite(char c) {
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return (c==' ' || c=='\t');
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}
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void serror(int code) {
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/*switch (code) {
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case ERR_BADFUNCTION:
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_ksys_debug_puts("ERR_BADFUNCTION\n");
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break;
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case ERR_BADNUMBER:
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_ksys_debug_puts("ERR_BADNUMBER\n");
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break;
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case ERR_NOBRACKET:
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_ksys_debug_puts("ERR_NOBRACKET\n");
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break;
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case ERR_BADVARIABLE:
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_ksys_debug_puts("ERR_BADVARIABLE\n");
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break;
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case ERR_OVERFLOW:
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_ksys_debug_puts("ERR_OVERFLOW\n");
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break;
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}*/
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//TODO (vitalkrilov): for what?: "::code = code;"
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// longjmp(j, code);
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}
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void set_exp(char* exp, double x) {
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prog = exp;
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x_value = x;
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}
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int get_token() {
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int tok;
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char* temp;
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(token_type) = 0;
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tok = 0;
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temp = (token);
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if (*(prog) == '\0') {
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*(token) = 0;
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tok = FINISHED;
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return ((token_type) = DELIMITER);
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}
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while (iswhite(*(prog))) ++(prog);
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if (isdelim(*(prog))) {
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*temp = *(prog);
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(prog)++;
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temp++;
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*temp = 0;
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return ((token_type) = DELIMITER);
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}
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if (isdigit(*(prog))) {
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while (!isdelim(*(prog)))
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*temp++=*(prog)++;
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*temp = '\0';
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return ((token_type) = NUMBER);
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}
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if (isalpha2(*(prog))) {
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while (!isdelim(*(prog)))
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*temp++=*(prog)++;
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(token_type) = VARIABLE;
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}
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*temp = '\0';
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if ((token_type) == VARIABLE) {
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tok = look_up((token));
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if (tok)
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(token_type) = FUNCTION;
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}
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return (token_type);
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}
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int sign(double d) {
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if (d > 0.0)
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return 1.0;
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if (d < 0.0)
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return -1.0;
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return 0.0;
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}
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void putback() {
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char* t;
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t = (token);
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for (;*t;t++)
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(prog)--;
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}
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int get_exp(double* hold) {
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int res;
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code = 0;
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// if (res = setjmp(j) != 0)
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// return code;
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get_token();
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if (!*(token)) {
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return 0;
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}
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level2( hold);
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putback();
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return 0;
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}
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void level2(double* hold) {
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char op;
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double h;
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level3( hold);
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while ((op=*(token)) == '+' || op == '-') {
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get_token();
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level3( &h);
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arith(op, hold, &h);
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}
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}
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void level3(double* hold) {
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char op;
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double h;
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level4( hold);
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while ((op=*(token)) == '*' || op == '/' || op == '%') {
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get_token();
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level4( &h);
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arith( op, hold, &h);
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}
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}
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void level4(double* hold) {
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double h;
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level5( hold);
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if (*(token) == '^') {
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get_token();
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level5( &h);
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arith( '^', hold, &h);
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}
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}
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void level5(double* hold) {
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char op;
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op = 0;
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if (((token_type) == DELIMITER) && *(token) == '+' || *(token) == '-') {
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op = *(token);
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get_token();
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}
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level6( hold);
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if (op) unary(op, hold);
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}
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void level6(double* hold) {
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if ((*(token) == '(') && ((token_type) == DELIMITER)) {
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get_token();
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level2( hold);
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if (*(token) != ')')
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serror( ERR_NOBRACKET);
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get_token();
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}
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else
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primitive( hold);
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}
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void calc_function(double* hold) {
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double d;
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int i;
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i = look_up(token);
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if (i == 0)
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serror(ERR_BADFUNCTION); // error
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get_token();
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if (*(token) != '(')
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serror(ERR_NOBRACKET); // error
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get_token();
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level2(hold);
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get_token();
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d = functions[i].f(*hold);
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*hold = (functions[i].f)(*hold);
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// else
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// serror( ERR_OVERFLOW);
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}
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void primitive(double* hold) {
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switch (token_type) {
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case VARIABLE:
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*hold = find_var(token);
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get_token();
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return;
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case NUMBER:
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//*hold = atof((token));
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//if (sscanf(token, "%lf", hold) != 1)
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*hold = convert(token, nullptr);
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if (*hold == ERROR)
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serror( ERR_BADNUMBER);
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get_token();
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return;
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case FUNCTION:
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calc_function( hold);
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return;
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default: // error
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return;
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}
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}
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void arith(char op, double* r, double* h) {
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double t;
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switch(op) {
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case '-':
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*r = *r - *h;
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break;
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case '+':
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*r = *r + *h;
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break;
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case '*':
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*r = *r * *h;
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break;
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case '/':
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if (*h == 0)
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serror( ERR_OVERFLOW);
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else
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*r = (*r) / (*h);
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break;
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case '%':
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if (*h == 0)
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serror( ERR_OVERFLOW);
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else
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*r = fmod(*r, *h);
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if (*r < 0) *r += *h;
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break;
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case '^':
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*r = pow(*r, *h);
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break;
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}
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}
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void unary(char op, double* r) {
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if (op == '-')
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*r = -(*r);
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}
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double find_var(const char* s) {
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//return 0; // not imp
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//int i;
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//for (i = 0; i < kvar; i++)
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// if (strcmp(vars[i].name, s) == 0)
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// return vars[i].value;
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if (s[1] == '\0' && (s[0] == 'x' || s[0] == 'X'))
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//if (strcmp(s,"x") == 0 || strcmp(s,"X") == 0)
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return x_value;
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serror( ERR_BADVARIABLE);
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return 0; // to make compiler very happy
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//printf("\nPlease enter value for variable \"%s\": ", s);
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//scanf("%lf", &vars[kvar].value);
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//strcpy(vars[kvar].name, s);
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//kvar++;
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//return vars[kvar - 1].value;
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}
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int look_up(const char* s) {
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int i;
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for (i = 0; i < MAX_FUNCS; i++)
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if (strcmp(s, functions[i].name) == 0)
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return i;
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return 0; // search command/function name
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}
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