# Floats incorrect? - Python 2.6

I have a programming question, as follows, for which my solution does not produce the desired output

This particle simulator operates in a universe with different laws of physics to ours. Each particle has a position (x, y), velocity (vx, vy) and an acceleration (ax, ay). Every particle exerts an attractive force on every other particle. This force is the same regardless of how far away the particle is.
The acceleration of a particle in the x direction is given by

(ax=number of particles to right of x−number of particles to left of x) / 10.0

The particle will then move left or right with velocity vx + ax.
Similarly, the acceleration of a particle in the y direction is given by

(ay=number of particles above y−number of particles below y) / 10.0

The particle will then move up or down with velocity vy + ay.
The particles are bound in a chamber with dimensions −300 < x < 300 and −200 < y < 200. If a particle hits the wall of the chamber it should bounce. Bouncing involves setting the x or y coordinate to the boundary, and reversing the direction of the velocity. For example, if a particle ends up with position x=305 then you should set x=300 and vx = -vx. Note that x must be set to the integer value 300 in order to get the same output values as our test cases.

Write a program to read in a file named particles.txt containing the initial positions, velocities and accelerations of a number of particles. The first line of the file contains the number of iterations to run the simulation for (5 in this example). Every other row contains data about one particle, in the format x y vx vy ax ay like this:

`5`
`0 -30 3 0 0 0`
`100 50 0 1 0 0`
`20 10 0 3 0 0`
`-80 15 2 -2 0 0`

Your program should create a Particle object to store the data for each particle. Then for every iteration of the simulation you should

• calculate the acceleration on each particle (using the equations above)
• then calculate the new velocity for each particle (vx = vx + ax)
• then calculate the new position for each particle (x = x + vx)
• The output of your program should be a list of positions for each particle at every step of the simulation, in CSV format x1,y1,x2,y2,x3,y3,x4,y4 for the 4-particle example shown above:
`3.1,-29.7,99.7,50.7,19.9,13.1,-77.7,12.9`
`6.3,-29.1,99.1,51.1,19.7,16.1,-75.1,10.9`
`9.6,-28.2,98.2,51.2,19.4,19.0,-72.2,9.0`
`13.0,-27.0,97.0,51.0,19.0,21.8,-69.0,7.2`
`16.5,-25.5,95.5,50.5,18.5,24.5,-65.5,5.5`

To produce these numbers, you should call str on the x and y coordinates of each of the particles.

My code is as follows:

``````class Particle(object):
def __init__(self, (x, y, vx, vy, ax, ay)):
# Set initial values
self.x, self.y = float(x), float(y)
self.vx, self.vy = float(vx), float(vy)
self.ax, self.ay = float(ax), float(ay)

def __str__(self):
return '(' + str(self.x) + ', ' + str(self.y) + ')'

# Calculate new acceleration
def calc_acc(self, part_list):
left, right = 0, 0
up, down = 0, 0
for particle in part_list:
# Count particles on left & right
if particle.x < self.x:
left += 1
elif particle.x > self.x:
right += 1
# Count particles above & below
if particle.y > self.y:
up += 1
elif particle.y < self.y:
down += 1
# Calculate x-acceleration
self.ax = (right - left) / 10.0
# Calculate y-acceleration
self.ay = (up - down) / 10.0

# Calculate new velocity
def calc_vel(self):
self.vx = self.vx + self.ax
self.vy = self.vy + self.ay

# Move the particle
def move(self, p_list):
# Calculate new acceleration & velocity
self.calc_acc(p_list)
self.calc_vel()
# Make move
self.x += self.vx
self.y += self.vy
# Check for bounce, and bounce
# X-axis
if self.x > 300.0:
self.x = 300
self.vx = -(self.vx)
elif self.x < -300.0:
self.x = -300
self.vx = -(self.vx)
# Y-axis
if self.y > 200.0:
self.y = 200
self.vy = -(self.vy)
elif self.y < -200.0:
self.y = -200
self.vy = -(self.vy)
# Return resulting position
return self.x, self.y

# Take file input
input_file = []
for line in open('particles2.txt', 'rU'):
input_file.append(line)

# Take number of iterations, and leave particle info only
times = int(input_file.pop(0))

# Remove '\n' from particle info, and convert particle info to a list of floats
for line in input_file:
input_file[input_file.index(line)] = line.strip('\n').split()

# Create list of Particle objects
particles = []
for line in input_file:
particles.append(Particle(line))

# Create result position array
results = []
for i in range(times):
results.append([None for x in range(len(particles))])

# Run simulation for 'times' iterations
for iteration in range(times):
i = 0
for particle in particles:
results[iteration][i] = particle.move(particles)
i += 1

# Create csv formatted string for output
result_output = ''
for iteration in results:
for particle in iteration:
result_output += str(particle[0]) + ',' + str(particle[1]) + ','
result_output += '\n'

result_output = result_output.replace(',\n', '\n')

print result_output
``````

output is:

``````21.9,2.0,-18.9,10.1
23.7,4.1,-17.7,20.1
25.4,6.3,-16.4,30.0
27.0,8.6,-15.0,39.8
28.5,11.0,-13.5,49.5
29.9,13.5,-11.9,59.1
31.2,16.1,-10.2,68.6
32.4,18.8,-8.4,78.0
33.5,21.6,-6.5,87.3
34.5,24.5,-4.5,96.5
35.4,27.5,-2.4,105.6
36.2,30.6,-0.2,114.6
36.9,33.8,2.1,123.5
37.5,37.1,4.5,132.3
38.0,40.5,7.0,141.0
38.4,44.0,9.6,149.6
38.7,47.6,12.3,158.1
38.9,51.3,15.1,166.5
39.0,55.1,18.0,174.8
39.0,59.0,21.0,183.0
38.9,63.0,24.1,191.1
38.7,67.1,27.3,199.1
38.4,71.3,30.6,200
38.0,75.6,34.0,192.0
37.5,80.0,37.5,183.9
37.1,84.5,40.9,175.7
36.8,89.1,44.2,167.4
36.6,93.8,47.4,159.0
36.5,98.6,50.5,150.5
36.5,103.5,53.5,141.9
36.6,108.5,56.4,133.2
36.8,113.6,59.2,124.4
37.1,118.8,61.9,115.5
37.5,123.9,64.5,106.7
38.0,128.9,67.0,98.0
38.6,133.8,69.4,89.4
39.3,138.6,71.7,80.9
40.1,143.3,73.9,72.5
41.0,147.9,76.0,64.2
42.0,152.4,78.0,56.0
43.1,156.8,79.9,47.9
44.3,161.1,81.7,39.9
45.6,165.3,83.4,32.0
47.0,169.4,85.0,24.2
48.5,173.4,86.5,16.5
50.1,177.3,87.9,8.9
51.8,181.1,89.2,1.4
53.6,184.8,90.4,-6.0
55.5,188.4,91.5,-13.3
57.5,191.9,92.5,-20.5
``````

when it should be:

``````21.9,2.0,-18.9,10.0
23.7,4.1,-17.7,19.9
25.4,6.3,-16.4,29.7
27.0,8.6,-15.0,39.4
28.5,11.0,-13.5,49.0
29.9,13.5,-11.9,58.5
31.2,16.1,-10.2,67.9
32.4,18.8,-8.4,77.2
33.5,21.6,-6.5,86.4
34.5,24.5,-4.5,95.5
35.4,27.5,-2.4,104.5
36.2,30.6,-0.2,113.4
36.9,33.8,2.1,122.2
37.5,37.1,4.5,130.9
38.0,40.5,7.0,139.5
38.4,44.0,9.6,148.0
38.7,47.6,12.3,156.4
38.9,51.3,15.1,164.7
39.0,55.1,18.0,172.9
39.0,59.0,21.0,181.0
38.9,63.0,24.1,189.0
38.7,67.1,27.3,196.9
38.4,71.3,30.6,200
38.0,75.6,34.0,192.1
37.5,80.0,37.5,184.1
37.1,84.5,40.9,176.0
36.8,89.1,44.2,167.8
36.6,93.8,47.4,159.5
36.5,98.6,50.5,151.1
36.5,103.5,53.5,142.6
36.6,108.5,56.4,134.0
36.8,113.6,59.2,125.3
37.1,118.8,61.9,116.5
37.5,123.9,64.5,107.8
38.0,128.9,67.0,99.2
38.6,133.8,69.4,90.7
39.3,138.6,71.7,82.3
40.1,143.3,73.9,74.0
41.0,147.9,76.0,65.8
42.0,152.4,78.0,57.7
43.1,156.8,79.9,49.7
44.3,161.1,81.7,41.8
45.6,165.3,83.4,34.0
47.0,169.4,85.0,26.3
48.5,173.4,86.5,18.7
50.1,177.3,87.9,11.2
51.8,181.1,89.2,3.8
53.6,184.8,90.4,-3.5
55.5,188.4,91.5,-10.7
57.5,191.9,92.5,-17.8
``````

For some reason, which I am unable to locate, the floats in the last column are not quite right. They differ from the desired output by anything between 2 and 0.5 or so.

I have no idea why this is the case!

Thanks for any help!

-
Yeah, there's an error in 93.8! –  Ben Sep 5 '10 at 6:12
See: docs.sun.com/source/806-3568/ncg_goldberg.html and en.wikipedia.org/wiki/Floating_point#Accuracy_problems. Long story short: floating points are only approximations, and rounding errors do add up. –  In silico Sep 5 '10 at 6:14
Is there a simple way I can fix that? –  Jasper Sep 5 '10 at 6:15
This is not because of the floating point approximations. The rounding errors add up, but not that quickly! –  gnibbler Sep 5 '10 at 6:25
Still, that's something to be aware of. –  In silico Sep 6 '10 at 1:19

You need to make a snapshot of the state and perform your calculations on the snapshot. If you move the particles around during the calculations as you are currently doing, you will get inconsistent results.

Something like this may work

``````from copy import deepcopy
for iteration in range(times):
i = 0
particles_snapshot = deepcopy(particles)
for particle in particles:
results[iteration][i] = particle.move(particles_snapshot)
i += 1
``````
-
AWESOME! It works! Thanks very much! –  Jasper Sep 5 '10 at 6:30