ede/ecalc/SciCalc.h

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2007-07-18 22:20:04 +04:00
// generated by Fast Light User Interface Designer (fluid) version 1.0108
#ifndef SciCalc_h
#define SciCalc_h
#include <FL/Fl.H>
#include <FL/Fl_Double_Window.H>
#include <FL/Fl_Box.H>
#include <FL/Fl_Group.H>
#include <FL/Fl_Button.H>
class SciCalc {
enum {MaxNumBrkts=10};
enum Operator {PLUS,MINUS,MULT,DIV,POW,INVPOW,EVAL};
enum mode {NONE=0,DOT=-1,NORM=-2,EXP=-3};
double value[4*(MaxNumBrkts+1)]; /* The values on the stack */;
int priority[6]; /* the priorities of each operator */;
int oper[3*(MaxNumBrkts+1)]; /* the operators between them */;
int top; /* the top of the stack */;
int startbrkt[(MaxNumBrkts+1)]; /* the positions of the left brackets */;
int currentbrkt; /* bracketing we are in */;
double mem; /* The memory value */;
int ready; /* Whether last number is ready.
if "ready" is set, then typing another number
overwrites the current number. */;
int dot; /* Whether the dot has been typed */;
double diver; /* The divider when behind the dot */;
int behind; /* Number of digits behind dot */;
int inv; /* Whether inverse key is depressed */;
int emode; /* Whether we are entering the exponent */;
int exponent; /* the exponent value whilst entering exponent */;
double mantissa; /* the mantissa value whilst entering exponent */;
int base; /* the base we are working in (2,8,10 or 16) */;
int drgmode; /* whether we are in deg, rad or grad mode */;
public:
SciCalc();
private:
Fl_Double_Window *win;
Fl_Box *leddisplay;
Fl_Box *box_DEGRAD;
Fl_Box *box_bracket;
Fl_Box *box_M;
Fl_Button *radio_2;
void cb_radio_2_i(Fl_Button*, void*);
static void cb_radio_2(Fl_Button*, void*);
Fl_Button *radio_8;
void cb_radio_8_i(Fl_Button*, void*);
static void cb_radio_8(Fl_Button*, void*);
Fl_Button *radio_10;
void cb_radio_10_i(Fl_Button*, void*);
static void cb_radio_10(Fl_Button*, void*);
Fl_Button *radio_16;
void cb_radio_16_i(Fl_Button*, void*);
static void cb_radio_16(Fl_Button*, void*);
Fl_Button *but_7;
void cb_but_7_i(Fl_Button*, void*);
static void cb_but_7(Fl_Button*, void*);
Fl_Button *but_8;
void cb_but_8_i(Fl_Button*, void*);
static void cb_but_8(Fl_Button*, void*);
Fl_Button *but_9;
void cb_but_9_i(Fl_Button*, void*);
static void cb_but_9(Fl_Button*, void*);
Fl_Button *but_4;
void cb_but_4_i(Fl_Button*, void*);
static void cb_but_4(Fl_Button*, void*);
Fl_Button *but_5;
void cb_but_5_i(Fl_Button*, void*);
static void cb_but_5(Fl_Button*, void*);
Fl_Button *but_6;
void cb_but_6_i(Fl_Button*, void*);
static void cb_but_6(Fl_Button*, void*);
Fl_Button *but_1;
void cb_but_1_i(Fl_Button*, void*);
static void cb_but_1(Fl_Button*, void*);
Fl_Button *but_2;
void cb_but_2_i(Fl_Button*, void*);
static void cb_but_2(Fl_Button*, void*);
Fl_Button *but_3;
void cb_but_3_i(Fl_Button*, void*);
static void cb_but_3(Fl_Button*, void*);
Fl_Button *but_0;
void cb_but_0_i(Fl_Button*, void*);
static void cb_but_0(Fl_Button*, void*);
Fl_Button *but_dot;
void cb_but_dot_i(Fl_Button*, void*);
static void cb_but_dot(Fl_Button*, void*);
public:
Fl_Button *but_sign;
private:
void cb_but_sign_i(Fl_Button*, void*);
static void cb_but_sign(Fl_Button*, void*);
Fl_Button *but_C;
void cb_but_C_i(Fl_Button*, void*);
static void cb_but_C(Fl_Button*, void*);
Fl_Button *but_AC;
void cb_but_AC_i(Fl_Button*, void*);
static void cb_but_AC(Fl_Button*, void*);
Fl_Button *but_X;
void cb_but_X_i(Fl_Button*, void*);
static void cb_but_X(Fl_Button*, void*);
Fl_Button *but_div;
void cb_but_div_i(Fl_Button*, void*);
static void cb_but_div(Fl_Button*, void*);
Fl_Button *but_plus;
void cb_but_plus_i(Fl_Button*, void*);
static void cb_but_plus(Fl_Button*, void*);
Fl_Button *but_minus;
void cb_but_minus_i(Fl_Button*, void*);
static void cb_but_minus(Fl_Button*, void*);
Fl_Button *but_pi;
void cb_but_pi_i(Fl_Button*, void*);
static void cb_but_pi(Fl_Button*, void*);
Fl_Button *but_eval;
void cb_but_eval_i(Fl_Button*, void*);
static void cb_but_eval(Fl_Button*, void*);
Fl_Button *but_eval_hidden;
void cb_but_eval_hidden_i(Fl_Button*, void*);
static void cb_but_eval_hidden(Fl_Button*, void*);
Fl_Button *but_eval_hidden2;
void cb_but_eval_hidden2_i(Fl_Button*, void*);
static void cb_but_eval_hidden2(Fl_Button*, void*);
Fl_Button *but_sqrt;
void cb_but_sqrt_i(Fl_Button*, void*);
static void cb_but_sqrt(Fl_Button*, void*);
Fl_Button *but_pow;
void cb_but_pow_i(Fl_Button*, void*);
static void cb_but_pow(Fl_Button*, void*);
Fl_Button *but_sin;
void cb_but_sin_i(Fl_Button*, void*);
static void cb_but_sin(Fl_Button*, void*);
Fl_Button *but_cos;
void cb_but_cos_i(Fl_Button*, void*);
static void cb_but_cos(Fl_Button*, void*);
Fl_Button *but_tan;
void cb_but_tan_i(Fl_Button*, void*);
static void cb_but_tan(Fl_Button*, void*);
Fl_Button *but_log;
void cb_but_log_i(Fl_Button*, void*);
static void cb_but_log(Fl_Button*, void*);
Fl_Button *but_ln;
void cb_but_ln_i(Fl_Button*, void*);
static void cb_but_ln(Fl_Button*, void*);
Fl_Button *but_int;
void cb_but_int_i(Fl_Button*, void*);
static void cb_but_int(Fl_Button*, void*);
Fl_Button *but_dr;
void cb_but_dr_i(Fl_Button*, void*);
static void cb_but_dr(Fl_Button*, void*);
Fl_Button *but_drg;
void cb_but_drg_i(Fl_Button*, void*);
static void cb_but_drg(Fl_Button*, void*);
Fl_Button *but_leftbr;
void cb_but_leftbr_i(Fl_Button*, void*);
static void cb_but_leftbr(Fl_Button*, void*);
Fl_Button *but_rightbr;
void cb_but_rightbr_i(Fl_Button*, void*);
static void cb_but_rightbr(Fl_Button*, void*);
Fl_Button *but_exch;
void cb_but_exch_i(Fl_Button*, void*);
static void cb_but_exch(Fl_Button*, void*);
Fl_Button *but_invx;
void cb_but_invx_i(Fl_Button*, void*);
static void cb_but_invx(Fl_Button*, void*);
Fl_Button *but_fact;
void cb_but_fact_i(Fl_Button*, void*);
static void cb_but_fact(Fl_Button*, void*);
Fl_Button *but_Mplus;
void cb_but_Mplus_i(Fl_Button*, void*);
static void cb_but_Mplus(Fl_Button*, void*);
Fl_Button *but_Mmult;
void cb_but_Mmult_i(Fl_Button*, void*);
static void cb_but_Mmult(Fl_Button*, void*);
Fl_Button *but_Mclear;
void cb_but_Mclear_i(Fl_Button*, void*);
static void cb_but_Mclear(Fl_Button*, void*);
Fl_Button *but_Mst;
void cb_but_Mst_i(Fl_Button*, void*);
static void cb_but_Mst(Fl_Button*, void*);
Fl_Button *but_Mrc;
void cb_but_Mrc_i(Fl_Button*, void*);
static void cb_but_Mrc(Fl_Button*, void*);
Fl_Button *check_inv;
void cb_check_inv_i(Fl_Button*, void*);
static void cb_check_inv(Fl_Button*, void*);
Fl_Button *but_quit;
void cb_but_quit_i(Fl_Button*, void*);
static void cb_but_quit(Fl_Button*, void*);
public:
~SciCalc();
void run(int px=-1,int py=-1);
private:
void handle_number(double numb);
void handle_operator(Operator op);
void change_base(int newbase);
void set_display(double val,mode behind);
void set_memdisp();
void set_drgdisp();
void set_brktdisp();
void add_left_bracket();
void add_right_bracket();
public:
void factorial();
void exchange();
void exponent_pi();
void calc(int i);
private:
void init_value(int lev);
void cvttobase(double num,int base,mode behind,char *str);
void setnormlabels();
void setinvlabels();
void mem_exchange();
double to_drg(double angle);
double from_drg(double angle);
public:
void memexch();
};
#endif