NagaokaRoboticsClub_mbedTeam / prototype01

s-shape control

Dependents:   wheel_test7 2019NHK_A_manual_red 2019NHK_A_manual_blue

proto01.cpp

Committer:
ec30109b
Date:
2019-10-04
Revision:
9:4a72ba990137
Parent:
7:c9707baaf007

File content as of revision 9:4a72ba990137:

#include "proto01.h"
 
Proto1::Proto1(double accdis_, double decdis_, double maxspeed_, double s_vector_)
{
    accdis    = accdis_;
    accdis2   = accdis;
    decdis    = decdis_;
    decdis2   = decdis;
    maxspeed  = maxspeed_;
    maxspeed2 = maxspeed;
    s_vector  = s_vector_;
}
 
void Proto1::target(double target_, double start_)
{
    targetDis = target_;
    start     = start_;
    if (targetDis > accdis+decdis) {
        maxspeed  = maxspeed2;
        accdis    = accdis2;
        decdis    = decdis2;
        consdis   = targetDis - accdis - decdis;
    } else {
        maxspeed  = maxspeed2 / 2.0;
        accdis    = targetDis / 2;
        decdis    = targetDis / 2;
        consdis   = 0;
    }
    /*秘伝のコード*/ /*いじるな*/
    accsec = 2.0 / maxspeed * accdis;
    decsec = 2.0 / maxspeed * decdis;
}
 
void Proto1::targetXY(int targetx_, int targety_, int startx_, int starty_)
{
    targetDis = hypot((float)(startx_-targetx_), (float)(starty_-targety_));
    startx    = startx_;
    starty    = starty_;
    targetx   = targetx_;
    targety   = targety_;
    if (targetDis > accdis+decdis) {
        maxspeed  = maxspeed2;
        accdis    = accdis2;
        decdis    = decdis2;
        consdis   = targetDis - accdis - decdis;
    } else {
        maxspeed =  maxspeed / 2.0;
        accdis    = targetDis / 2;
        decdis    = targetDis / 2;
        consdis   = 0;
    }
    /*秘伝のコード*/ /*いじるな*/
    accsec = 2.0 / maxspeed * accdis;
    decsec = 2.0 / maxspeed * decdis;
}
 
void Proto1::Input_now(double now_)
{
    now    = now_;
    nowDis = now - start;
}
 
void Proto1::Input_nowXY(int now_x, int now_y)
{
    nowx      = now_x;
    nowy      = now_y;
    nowDis    = hypot((startx-nowx),(starty-nowy));
    targetRad = atan2((double)(targety-nowy), (double)(targetx-nowx));
}
 
void Proto1::calculate()
{
    if (nowDis < accdis) {
        counter = sqrt(2.0*accsec/maxspeed*nowDis);
        vector = s_vector + (-1 * sin((2.0*PI/accsec)*counter) + (2.0*PI/accsec)*counter) / ((2.0*PI)/(maxspeed-s_vector));
    } else if (nowDis >= accdis && nowDis < accdis+consdis) {
        vector = maxspeed;
    } else if (nowDis > (accdis+consdis)) {
        counter = sqrt(2.0*decsec/maxspeed*fabs(targetDis-nowDis));
        vector = (-1 * sin((2.0*PI/decsec)*counter) + (2.0*PI/decsec)*counter) / (2.0*PI/maxspeed);
    } else {
        vector = 0;
    }
}
 
double Proto1::getvalue()
{
    return vector;
}
 
double Proto1::getvalue_x()
{
    return vector * cos(targetRad);
}
 
double Proto1::getvalue_y()
{
    return vector * sin(targetRad);
}