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I am launching a projectile around a sphere. My code moves it in a counterclockwise direction just fine. However, I would like it to move in a clockwise direction instead.

I'm guessing that it's a matter of tuning my math.

// these are my stepping and incrementing variables

int goose1_egg1_step = 1;
int &r_goose1_egg1_step = goose1_egg1_step;
float goose1_egg1_divider = 17500;

// the starting theta/phi values are: 5 and 5

int goose1_egg1_theta=5;
int goose1_egg1_phi=5;

// the ending theta/phi values are: 7 and 1
// there is a difference of 2 between the start and end theta values
// there is a difference of 4 between the start and end phi values

float goose1_egg1_theta_increment = 2/goose1_egg1_divider;
float goose1_egg1_phi_increment = 4/goose1_egg1_divider;

This is my function that displays the updated coordinates each frame with a sphere:

if (goose1_egg1_step < goose1_egg1_divider)
    float goose1_egg1_theta_math = (goose1_egg1_theta+(goose1_egg1_theta_increment* r_goose1_egg1_step))/10.0*M_PI;
    float goose1_egg1_phi_math = (goose1_egg1_phi-(goose1_egg1_phi_increment* r_goose1_egg1_step))/10.0*2*M_PI;
    r_goose1_egg1_x = Radius * sin(goose1_egg1_theta_math) * cos(goose1_egg1_phi_math);
    r_goose1_egg1_y = Radius * sin(goose1_egg1_theta_math) * sin(goose1_egg1_phi_math);
    r_goose1_egg1_z = Radius * cos(goose1_egg1_theta_math); 

    glColor3f (1.0, 0.0, 0.0);
    glutSolidSphere (0.075,5,5);

And here is how I increment the step value:

if (r_goose1_egg1_step < goose1_egg1_divider)       
share|improve this question
If you think it's a matter of tuning your math, you should probably try that first. –  anthropomorphic Jul 10 '12 at 0:04
+1 (offsetting) Don't understand the downvote. Looks like a perfectly legitimate question to me. Opposing viewpoints welcome. –  Bob Kaufman Jul 10 '12 at 13:51

1 Answer 1

up vote 0 down vote accepted

Even though you are talking about "clockwise motion" in a sphere, when it only makes sense to me in a plane, it seems to me that what you want could be done just by changing the signals in the two lines where you create goose1_egg1_theta_math and goose1_egg1_phi_math, like this:

    float goose1_egg1_theta_math = (goose1_egg1_theta-(goose1_egg1_theta_increment* r_goose1_egg1_step))/10.0*M_PI;
    float goose1_egg1_phi_math = (goose1_egg1_phi+(goose1_egg1_phi_increment* r_goose1_egg1_step))/10.0*2*M_PI;

This should reverse the way you increment you spherical coordinates, giving you the "counter-clockwise" motion you're looking for.

share|improve this answer
Thank you very much for your response. My 3d-math isn't so hot (obviously), and your suggestion did the trick. I've been multiplying every other sin/cos by -1, etc. in the meantime - shooting in the dark... so I appreciate it. My original post left out some of my text, so I humbly thank you. –  kropcke Jul 10 '12 at 6:52
@kropcke I'm glad I could help. :) If this is what you were looking for, you should mark it as the answer so others will know that this is not an open question anymore. –  MeloMCR Jul 10 '12 at 11:16
Thank you again MeloMCR. Just marked it a moment ago. I hope to help answer other folks' questions in the future. –  kropcke Jul 10 '12 at 18:27

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