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/*
This program (files math.c and math.h) is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by the Free Software Foundation;
either version 3 of the License, or (at your option) any later version.  
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details. You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.

Please note: All the other files for the project "Mikrokopter" by H.Buss are under the license (license_buss.txt) published by www.mikrokopter.de
*/


#include "main.h"

//-----------------------------------------------
// Fast arctan2 with max error of .01 rads
// http://www.dspguru.com/comp.dsp/tricks/alg/fxdatan2.htm
//-----------------------------------------------
float arctan_f(signed int x, signed int y)
{  
   float rad,r;
   signed int angle;
   short int m;  
   
   if (!x && !y) return 0;
   
   if (y < 0) {y = abs(y); m = -1;}
   else m = 1;
   
   if (x>=0)
   {
      r = (x - y) / (x + y);
      rad = 0.1963*r*r*r - 0.9817*r + 0.7854;
   }
   else
   {
      r = (x + y) / (y - x);
      rad = 0.1963*r*r*r - 0.9817*r + 2.3562;
   }
     
   return(rad*m);
}

/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Peter Muehlenbrock
arctan in brute-force Art
Stand 1.10.2007
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
*/


// arctan Funktion: Eingabewert x,y Rueckgabe =arctan(x,y) in grad
int8_t arctan_i( signed int x,  signed int y)
{
        short int change_xy = 0;
        signed int i;
        long signed int wert;
        int return_value;

        if ((abs(x)) > (abs(y)))  // x,y Werte vertauschen damit arctan <45 grad bleibt
        {      
                change_xy       = 1;
                i                       = x;
                x                       = y;
                y                       = i;
        }
       
        // Quadranten ermitteln

        // Wert durch lineare Interpolation ermitteln
        if ((y == 0) && (x == 0))  wert =1; // Division durch 0 nicht erlaubt
        else wert= abs((x*1000)/y);

        if (wert <=268) //0...0.0,268  entsprechend 0..15 Grad
        {
                return_value = (signed int)((wert*100)/(268-0)*(15-0)/100) +0;
        }
        else if (wert <=578) //0,268...0.0,568  entsprechend 15..30 Grad
        {      
                return_value = (signed int)((((wert-268)*100)/(578-268)*(30-15))/100) +15;             
        }
        else //0,568...1  entsprechend 30..45 Grad
        {      
                return_value = (signed int)((((wert-578)*50)/(1000-578)*(45-30))/50) +30;              
        }

        if (change_xy == 0)  return_value = 90-return_value; //Quadrant 45..90 Grad
        if ((x >= 0) && (y <0)) return_value = - return_value;
        else if ((x < 0) && (y >= 0)) return_value = - return_value;

return return_value;
}

// cosinus Funktion: Eingabewert Winkel in Grad, Rueckgabe =cos(winkel)*1000
signed int cos_i(signed int winkel)
{
  winkel = sin_i(90-winkel);
  return winkel;
}


const unsigned int pgm_sinus[91] PROGMEM = {0,17,35,52,70,87,105,122,139,156,174,191,208,225,242,259,276,292,309,326,342,358,375,391,407,423,438,454,469,485,500,515,530,545,559,574,588,602,616,629,643,656,669,682,695,707,719,731,743,755,766,777,788,799,809,819,829,839,848,857,866,875,883,891,899,906,914,921,927,934,940,946,951,956,961,966,970,974,978,982,985,988,990,993,995,996,998,999,999,1000,1000};

// sinus Funktion: Eingabewert Winkel in Grad, Rueckgabe =sin(winkel)*1000
signed int sin_i(signed int winkel)
{
 short int m,n;
 
 //winkel = winkel % 360;
 
 if (winkel < 0)
 {
        m = -1;
        winkel = abs(winkel);
 }
 else m = +1;
 
 // Quadranten auswerten
 if ((winkel > 90 ) && (winkel <= 180)) {winkel = 180 - winkel; n = 1;}
 else if ((winkel > 180 ) && (winkel <= 270)) {winkel = winkel - 180; n = -1;}
 else if ((winkel > 270) && (winkel <= 360)) {winkel = 360 - winkel; n = -1;}
 else n = 1; //0 - 90 Grad

winkel = pgm_read_word(&pgm_sinus[winkel]);

return (winkel*m*n);
}