# Another Simple Random Walk Simulation Using Python(Two-Dimensional)

I'm trying to solve a two-dimensional random walk problem from the book, exploring python. But, I couldn't figure out how can I solve this problem.I made some research but those were too complicated to understand what is it about. I'm a beginner learner. So, I can't understand the code by looking it. Please explain me this problem in details.

Anyway, the question is:

The two dimensional variation on the random walk starts in the middle of a grid, such as an 11 by 11 array. At each step the drunk has four choices: up, down, left or right. Earlier in the chapter we described how to create a two-dimensional array of numbers. Using this data type, write a simulation of the two-dimensional random walk.

Ok, What I know; I know how to create two dimensional array in python:

``````times = [0] * 11
for i in range(0,11):
times[i] = [0] * 11
``````

And I got the idea of "randint" function:

And also I have written the one dimensional variation of this problem recently. But it is a spaghetti code code and and it is very dirty and also I'm not sure if it is right.

My code is here:

``````'''
Created on Feb 11, 2012

@author: msarialp
'''
from random import randint

def drunken_man():
steps = 0
times = [0] * 11
left_move = 0
right_move = 0
i = 0
while left_move < 5 or right_move < 5:
value = randint(0,1)
times[5] = 1
if value == 1:
steps += 1
print("He moved left")
left_move += 1
if right_move > 0:
right_move -= 1
if left_move == 1:
times[4] += 1
elif left_move == 2:
times[3] += 1
elif left_move == 3:
times[2] += 1
elif left_move == 4:
times[1] += 1
#elif left_move == 5:
#times[0] += 1
elif value == 0:
steps += 1
print("He moved right")
right_move += 1
if left_move > 0:
left_move -= 1
if right_move == 1:
times[6] += 1
elif right_move == 2:
times[7] += 1
elif right_move == 3:
times[8] += 1
elif right_move == 4:
times[9] += 1
#elif right_move == 5:
#times[10] += 1
times[i] += 1
for i in range(1,10):
print("He took {steps} steps until he reaches end of the sidewalk.".format(steps = steps),  "He stood on {1} square at {0} times".format(times[i], i) )

def main():
drunken_man()

return 0
if __name__ == '__main__':
main()
``````

EDIT One

After taking some good advices from Dan Gerhardsson. I've decided to edit my question. So where I am on this question: I understand how can I follow and examine the steps of my drunken man at two-dimesion.

It was very understandable and clear to use tuple to solve this exercise.

So, after all my code segment is here, Please check and give me any feedbacks.

``````def two_dimensional_random_walk():
steps = 0
times = [0] * 11
for i in range(0,11):
times[i] = [0] * 11
x = 5
y = 5
moves = [(1,0), (0,1), (-1,0), (0,-1)]
while x<11 and x >= 0 or y < 11 and y >= 0:
dx, dy = moves[randint(0,3)]
x += dx
y += dy
if dx == 1 and dy == 0:
print("He moved right")
elif dx == 0 and dy == 1:
print("He moved up")
elif dx == -1 and dy == 0:
print("He moved left")
elif dx == 0 and dy == -1:
print("He moved down")
try:
times[x][y] += 1
steps += 1
except IndexError:
break
``````

And my print function is:

``````for i in range(0,11):
for j in range(0,11):
print("He took {steps} steps until he reaches end of the sidewalk.".format(steps = steps),  "He stood on {1}x{2} square at {0} times".format(times[i][j], i+1,j+1) )
``````

So all in all I guess with helps by Dan Gerhardsson, I solved the exercise.

But, Why won't I change my one dimensional solution with those hints.

``````def drunken_man():
steps = 0
x = 6
times = [0] * 11
moves = [(1), (-1)]

while x < 11 and x >= 0:
dx = moves[randint(0,1)]
print(dx, x)
x += dx
try:
times[x] += 1
steps += 1
except IndexError:
break
for i in range(1,11):
print("He took {0} steps until he reaches end of the sidewalk.".format(steps),  "He stood on {1} square at {0} times".format(times[i], i) )
``````

EDIT Two(Final touches)

I'm not sure whether it is necessary to edit my post for applying the hints by Dan Gerhardsson. In order to help someone who misses the points like me, I decided to combine everything together.

So here is my function that is combined with hints by Dan Gerhardsson:

``````def two_dimensional_random_walk():
steps = 0 # Steps counter for understand how many steps that our drunken man take
grid_size = 11 # Grid size variable,
# Creating Two dimensional array by using lists
times = [0] * grid_size
for i in range(0,grid_size):
times[i] = [0] * grid_size
# Initial variables to start in the middle of grid
x = 5
y = 5
# Tuples to get directions and decide where to go
moves = [(1,0, "right"), (0,1, "up"), (-1,0, "left"), (0,-1, "down")]
# My loop for evaluate the steps
while True:
dx, dy, position = moves[randint(0,3)] # By using randint I could make decision randomly
x += dx
y += dy
print("He moved", position)
try:
times[x][y] += 1 # And here is, how many times have he stood on each square
steps += 1
except IndexError: # The exit of loop
break
# My print function which answers these questions (How long will it be until he reaeches the end of the sidewalk, and how many times will he have stood on each square)
for i in range(0,11):
for j in range(0,11):
print("He took {steps} steps until he reaches end of the sidewalk.".format(steps = steps),  "He stood on {1}x{2} square at {0} times".format(times[i][j], i+1,j+1) )
``````

Thanks for your big helps Dan Gerhardsson. I guess finally I've got the solution.

-
Is this homework? –  amindfv Feb 23 '12 at 21:59
No, I'm just studying python with this book, books.google.com.tr/books/about/… –  mustafaSarialp Feb 23 '12 at 22:03

I can at least give you a few hints. So you have four possible moves. Each move can be represented by a tuple which is the displacement in the x and y directions:

``````moves = [(0, 1), (1, 0), (0, -1), (-1, 0)]
``````

To set the start position in the center:

``````grid_size = 11
x = grid_size // 2
y = grid_size // 2
``````

Store the position of the drunken man and update it in each step of the simulation. Something like this:

``````# Displacement:
dx, dy = random.choice(moves)

# Update position:
x += dx
y += dy
``````

This might not be beginner level code, but instead of checking the boundaries with an if-statement, you can try to update the count, and handle the exception, which is raised if the position is outside the grid:

``````try:
# Update counter.
times[x][y] += 1
except IndexError:
# Exit the simulation loop.
break
``````

Hope this helps.

EDIT - Comments on the second version:

Since you want to print the direction in each step, you can add that to the tuple:

``````moves = [(0, 1, 'up'), (1, 0, 'right'), (0, -1, 'down'), (-1, 0, 'left')]
``````

Then you can replace the if-statement where you print the direction:

``````dx, dy, direction = random.choice(moves)
print('He moved', direction)
``````

When you use try-except as in your current solution, you don't need to check the boundaries in the while-statement. You can just do:

``````while True:
...
``````

since the break in the exception handler will exit the loop.

My final piece of advice is to replace some of the number literals with variables. The grid size e.g. appears in more than one place. You should create a variable and refer to it in the rest of the code:

``````grid_size = 11
times = [0] * grid_size
for i in range(grid_size):
times[i] = [0] * grid_size
``````

Using a variable instead of number literals means that you just have to make a change at one place if you want to run the code with a different grid size.

-
Great explanation. –  amindfv Feb 23 '12 at 22:22
Thank you. But, I missed some points. One of them is that, according to the question drunken man should start in the middle of the grid. I mean 5x5. How can we evaluate this. And also I need a print function to prompt answers of those question ( How long will it be until he reaeches the end of the sidewalk, and how many times will he have stood on each square ) So I wrote a print function is that right ? ' print("He took {steps} steps until he reaches end of the sidewalk.".format(steps = steps), "He stood on {1}x{2} square at {0} times".format(times[i][j], i+1,j+1) ) ' I had two for loop too. –  mustafaSarialp Feb 24 '12 at 7:51
I've changed the starting values of x and y, so is my problem solved(In the middle of the grid) x = 5 y = 5 moves = [(1,0), (0,1), (-1,0), (0,-1)] while x<=10 or y <= 10: ... Then I have one more question to ask, How can create a print function according to these questions (How long will it be until he reaches the end of the side walk, and how many times will he have stood on each square) –  mustafaSarialp Feb 24 '12 at 8:35
@mustaa: Since you are doing this as an exercise, I don't think I should give you a complete solution, but if you edit your question and add your current code, I can give some feedback. Based on your comments, it sounds like you're on the right track. In your original code, you already have a variable that counts the number of steps. That's fine. Your output strings seem to be OK too, so I think you're pretty close. One thing though: If you check the boundaries with an if-statement, remember to check both sides of the interval, i.e. (x > 0 and x < grid_size). –  Dan Gerhardsson Feb 24 '12 at 15:51
@mustaa: Sorry, it should of course be (x >= 0 and x < grid_size). –  Dan Gerhardsson Feb 24 '12 at 18:43

I made a similar random walk program which allowed the drunken man to walk in any direction in three dimensional space using spherical coordinates.

``````import random
import math
def rw3(n,tries):
s = 0
for m in range(1,tries+1):
x = 0
y = 0
z = 0
pi = math.pi
for step in range(1,n+1):
t = random.uniform(0,2*pi)
f = random.uniform(0,2*pi)
p = 1
x += p*math.sin(f)*math.cos(t)
y += p*math.sin(f)*math.sin(t)
z += p*math.cos(f)
s += (x**2+y**2+z**2)**.5
return s/tries
life = 42
while life:
n = int(input("Please enter the number of steps: "))
tries = int(input("How many times should I perform the experiment? "))
print()
print(rw3(n,tries))
print()
``````
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