# Pygame | Following a parabolic curve

I'm currently making a projectile motion simulation for sub-orbital flights. At the moment the program plots points in the shape of a parabola and connects lines between the points. A red square then travels the path of the parabola to simulate a rocket travelling the projected trajectory, the problem is however, that the program is very buggy, over-complicated and takes up more lines of code than i wanted it to.

The red square searches for the first point in a list and decreases the distance between the two, after the x values match, it then searches for the next set of coordinates in the list.

``````x_coord = []
y_coord = []
x_neg = []
y_neg = []
rocketx = 0
rockety = 0
points_created = False
zoomx = 200
zoomy = 100
rocketSpeed = 0.1
coord_count = 0
rocketx = 0
rockety = display_height

while equation == True:
len_coordx = len(x_coord)
display.fill(white)

for event in pygame.event.get():
if event.type == QUIT:
pygame.quit()
quit()

if event.type == KEYDOWN:
if event.key == K_RIGHT:
zoomx += 10
del x_coord[:]
del x_neg[:]
del y_coord[:]
points_created = False
if event.key == K_LEFT:
zoomx -= 10
del x_coord[:]
del x_neg[:]
del y_coord[:]
points_created = False
if event.key == K_UP:
zoomy += 2
del x_coord[:]
del x_neg[:]
del y_coord[:]
points_created = False
if event.key == K_DOWN:
zoomy -= 2
del x_coord[:]
del x_neg[:]
del y_coord[:]
points_created = False

if points_created == False:
for x in[float(j) / 100 for j in range(0, 200, 10)]:
y = x**2 *zoomy + display_height/4
y_coord.append(y)
x_coord.append(x*zoomx + display_width/2)

for x in x_coord:
x_neg.append(x*-1 + display_width)

points_created = True
coord_count_neg = len(x_neg) - 1
rocketx = x_neg[coord_count_neg] - 1
rockety = y_coord[coord_count_neg] - 1

if len(x_coord) > 0:
for i in range(len_coordx):
pygame.draw.rect(display, black, [x_coord[i], y_coord[i], 3, 3])
pygame.draw.rect(display, black, [x_neg[i], y_coord[i], 3, 3])
if i > 0:
pygame.draw.line(display, black, (x_coord[i-1], y_coord[i-1]), (x_coord[i], y_coord[i]), 3)
pygame.draw.line(display, black, (x_neg[i-1], y_coord[i-1]), (x_neg[i], y_coord[i]), 3)

if coord_count_neg != 0:
distance = math.sqrt((x_neg[coord_count_neg] - rocketx)**2 + (y_coord[coord_count_neg] - rockety)**2)

newCoordx = round((((rocketSpeed*(x_neg[coord_count_neg] - rocketx))/distance) + rocketx),1)
newCoordy = round((((rocketSpeed*(y_coord[coord_count_neg] - rockety))/distance) + rockety),1)
rocketx = newCoordx
rockety = newCoordy

if rocketx >= x_neg[coord_count_neg]:
coord_count_neg -= 1

else:

distance = math.sqrt((x_coord[coord_count] - rocketx)**2 + (y_coord[coord_count] - rockety)**2)

newCoordx = round((((rocketSpeed*(x_coord[coord_count] - rocketx))/distance) + rocketx),1)
newCoordy = round((((rocketSpeed*(y_coord[coord_count] - rockety))/distance) + rockety),1)
rocketx = newCoordx
rockety = newCoordy

if rocketx >= x_coord[coord_count]:
coord_count += 1
pygame.draw.rect(display,red,[rocketx, rockety, 10,10])

pygame.draw.rect(display,red,[rocketx, rockety, 10,10])

pygame.display.update()
``````

How can i make this more efficient and achieve the same thing in less lines?

• Working code should be placed on codereview.stackexchange.com – cricket_007 Feb 22 '16 at 1:55
• @cricket_007 It is possible that this particular question might be a fit for Code Review, the conjecture that all working code should automatically go to Code Review is less than accurate. – nhgrif Feb 22 '16 at 1:57
• @nhgrif no at all, clearly, but this question is a good candidate seeing as there has not been a question asked here other than "how can I make this better" – cricket_007 Feb 22 '16 at 2:01