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aicontest_file.py
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aicontest_file.py
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import pygame
from pygame.locals import *
from OpenGL.GL import *
from OpenGL.GLU import *
from OpenGL.GLUT import *
import math
import numpy as np
import sys
vertices = (
(1.5, -1.5, -1.5),
(1.5, 1.5, -1.5),
(-1.5, 1.5, -1.5),
(-1.5, -1.5, -1.5),
(1.5, -1.5, 1.5),
(1.5, 1.5, 1.5),
(-1.5, -1.5, 1.5),
(-1.5, 1.5, 1.5)
)
edges = (
(0, 1),
(0, 3),
(0, 4),
(2, 1),
(2, 3),
(2, 7),
(6, 3),
(6, 4),
(6, 7),
(5, 1),
(5, 4),
(5, 7)
)
def draw_text(position, text_string, size, color_):
font = pygame.font.Font(None, size)
text_surface = font.render(text_string, True, color_, (0, 0, 0, 255))
text_data = pygame.image.tostring(text_surface, "RGBA", True)
glRasterPos3d(*position)
glDrawPixels(text_surface.get_width(), text_surface.get_height(), GL_RGBA, GL_UNSIGNED_BYTE, text_data)
def draw_cube():
glBegin(GL_LINES)
for edge in edges:
for vertex in edge:
glVertex3fv(vertices[vertex])
glEnd()
def draw_grid_y():
draw_cube()
glPushMatrix()
for i in range(3):
glTranslatef(0.0, 3, 0.0)
draw_cube()
glPopMatrix()
glPushMatrix()
for i in range(4):
glTranslatef(0.0, -3, 0.0)
draw_cube()
glPopMatrix()
def draw_grid():
draw_grid_y()
glPushMatrix()
for i in range(3):
glTranslatef(3.0, 0.0, 0.0)
draw_grid_y()
glPopMatrix()
glPushMatrix()
for i in range(4):
glTranslatef(-3.0, 0.0, 0.0)
draw_grid_y()
glPopMatrix()
def draw_move(selected_cube):
glPushMatrix()
glTranslatef((selected_cube[0] - 4) * 3, (selected_cube[1] - 4) * 3, 0)
glBegin(GL_QUADS)
glVertex3f(1.5, 1.5, -1.5)
glVertex3f(-1.5, 1.5, -1.5)
glVertex3f(-1.5, -1.5, -1.5)
glVertex3f(1.5, -1.5, -1.5)
glEnd()
glPopMatrix()
def draw_reaction(cubes):
glColor3f(1, .8, .1)
for cube in cubes:
draw_move(cube)
def draw_sphere(radius, is_red):
points = np.zeros((105, 105, 3))
stack = 20
slices = 20
for i in range(stack+1):
h = radius*math.sin(float((i/stack))*(math.pi/2))
r = radius*math.cos(float((i/stack))*(math.pi/2))
for j in range(slices+1):
points[i][j][0] = r*math.cos(float((j/slices))*2*math.pi)
points[i][j][1] = r*math.sin(float((j/slices))*2*math.pi)
points[i][j][2] = h
for i in range(stack):
glColor3f(is_red*(i+stack)/(2*stack), (1-is_red)*i/stack, 0)
for j in range(slices):
glBegin(GL_QUADS)
glVertex3f(points[i][j][0], points[i][j][1], points[i][j][2])
glVertex3f(points[i][j+1][0], points[i][j+1][1], points[i][j+1][2])
glVertex3f(points[i+1][j+1][0], points[i+1][j+1][1], points[i+1][j+1][2])
glVertex3f(points[i+1][j][0], points[i+1][j][1], points[i+1][j][2])
glVertex3f(points[i][j][0], points[i][j][1], -points[i][j][2])
glVertex3f(points[i][j+1][0], points[i][j+1][1], -points[i][j+1][2])
glVertex3f(points[i+1][j+1][0], points[i+1][j+1][1], -points[i+1][j+1][2])
glVertex3f(points[i+1][j][0], points[i+1][j][1], -points[i+1][j][2])
glEnd()
def draw_spheres():
global grid, angles
sphere_color = {'R': 1, 'G': 0}
for i in range(len(grid)):
for j in range(len(grid[0])):
if grid[i][j] != 'No':
glPushMatrix()
glTranslatef((i - 4)*3, (j - 4)*3, 0)
glRotatef(angles[i][j], 0, 0, 1)
angles[i][j] = (angles[i][j] + 5) % 360
if grid[i][j][1] == '1':
draw_sphere(.7, sphere_color[grid[i][j][0]])
elif grid[i][j][1] == '2':
glPushMatrix()
glTranslatef(-.3, 0, 0)
draw_sphere(.6, sphere_color[grid[i][j][0]])
glPopMatrix()
glPushMatrix()
glTranslatef(.3, 0, 0)
draw_sphere(.6, sphere_color[grid[i][j][0]])
glPopMatrix()
elif grid[i][j][1] == '3':
glPushMatrix()
glTranslatef(-.3, -.2, 0)
draw_sphere(.6, sphere_color[grid[i][j][0]])
glPopMatrix()
glPushMatrix()
glTranslatef(.3, -.2, 0)
draw_sphere(.6, sphere_color[grid[i][j][0]])
glPopMatrix()
glPushMatrix()
glTranslatef(0, .2, 0)
draw_sphere(.6, sphere_color[grid[i][j][0]])
glPopMatrix()
elif grid[i][j][1] >= '4':
glPushMatrix()
glTranslatef(-.3, -.2, 0)
draw_sphere(.6, sphere_color[grid[i][j][0]])
glPopMatrix()
glPushMatrix()
glTranslatef(.3, -.2, 0)
draw_sphere(.6, sphere_color[grid[i][j][0]])
glPopMatrix()
glPushMatrix()
glTranslatef(.3, .2, 0)
draw_sphere(.6, sphere_color[grid[i][j][0]])
glPopMatrix()
glPushMatrix()
glTranslatef(-.3, .2, 0)
draw_sphere(.6, sphere_color[grid[i][j][0]])
glPopMatrix()
glPopMatrix()
grid = None
angles = None
def read_move():
with open("shared_file.txt") as f:
lines = f.readlines()
f.close()
if len(lines)<2:
return None
if lines[0].strip('\n') == '0':
if lines[0].strip('\n') == '0':
return lines[1].strip('\n').split()
return None
def check_validity(values):
global cur_player, players, invalid_move
print(values)
if len(values) != 2:
invalid_move = True
return False
if not values[0].isdigit() or not values[1].isdigit():
invalid_move = True
return False
values = [int(value) for value in values]
if values[0] >= 8 or values[1] >= 8:
invalid_move = True
return False
if grid[values[0]][values[1]][0] == players[1 - cur_player]:
invalid_move = True
return False
return True
def check_reaction(selected_cube):
dirs = [(1, 0), (-1, 0), (0, 1), (0, -1)]
count = 0
for dir in dirs:
temp = np.array(selected_cube) + np.array(dir)
if temp[0] > -1 and temp[0] < 8 and temp[1] > -1 and temp[1] < 8:
count += 1
return count
def update_grid(selected_cube):
global grid, cur_player, players, grid_updated, cubes_to_update
x = selected_cube[0]
y = selected_cube[1]
if grid[x][y] == 'No':
grid[x][y] = players[cur_player] + '1'
else:
atom_count = int(grid[x][y][1])
if check_reaction(selected_cube) == atom_count + 1:
cubes_to_update.append(selected_cube)
grid[x][y] = players[cur_player] + str(int(grid[x][y][1])+1)
grid_updated = True
def reaction(selected_cube):
global grid, players, cur_player, cubes_to_update
dirs = [(1, 0), (-1, 0), (0, 1), (0, -1)]
x = selected_cube[0]
y = selected_cube[1]
atom_count = int(grid[x][y][1])
react_count = check_reaction(selected_cube)
if react_count == atom_count:
grid[x][y] = "No"
else:
count = atom_count - react_count
if count >= react_count:
cubes_to_update.append(selected_cube)
grid[x][y] = players[cur_player] + str(count)
for dir in dirs:
temp = np.array(selected_cube) + np.array(dir)
if temp[0] > -1 and temp[0] < 8 and temp[1] > -1 and temp[1] < 8:
update_grid(temp)
def write_grid():
global cur_player, grid
str_to_write = players[cur_player] + '\n'
for i in grid:
for j in i:
str_to_write += j + " "
str_to_write += '\n'
with open("shared_file.txt", 'w') as f:
f.write(str_to_write[:-1])
def check_winner():
global move_count, grid, invalid_move, cur_player
if invalid_move:
return 1 - cur_player
if move_count <= 2:
return -1
green = False
red = False
if 'G1' in grid or 'G2' in grid or 'G3' in grid or 'G4' in grid or 'G5' in grid:
green = True
if 'R1' in grid or 'R2' in grid or 'R3' in grid or 'R4' in grid or 'R5' in grid:
red = True
if green and not red:
return 1
if red and not green:
return 0
return -1
cur_player = None
players = ['R', 'G']
cubes_to_update = None
grid_updated = None
move_count = None
move_read = None
invalid_move = None
move_speed = None
is_over = False
def init():
global grid, angles, cur_player, cubes_to_update, grid_updated, move_count, move_read, invalid_move, move_speed
pygame.init()
display = (800, 800)
pygame.display.set_mode(display, DOUBLEBUF | OPENGL)
gluPerspective(45, (display[0] / display[1]), 0.1, 80.0)
grid = np.full((8, 8), 'No')
cubes_to_update = []
angles = np.zeros((8, 8))
cur_player = 0
grid_updated = False
move_count = 0
move_read = False
invalid_move = False
move_speed = int(sys.argv[1])
write_grid()
def display_grid():
global is_over, grid, cur_player, players, cubes_to_update, grid_updated, move_count, move_read, invalid_move, \
move_count, move_speed
glColor3f(1, 0, 0)
glTranslatef(0.0, 0.0, -45)
# cur_player = 0
while True:
if not is_over and len(cubes_to_update) > 0:
draw_reaction(cubes_to_update)
temp = cubes_to_update.copy()
cubes_to_update.clear()
for update in temp:
reaction(update)
pygame.time.wait(move_speed)
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
quit()
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT)
selected_cube = read_move()
if not is_over and not move_read and selected_cube is not None:
move_read = True
move_count += 1
if check_validity(selected_cube):
selected_cube = [int(i) for i in selected_cube]
update_grid(selected_cube)
pygame.time.wait(move_speed)
glColor3f(.6, .6, .6)
draw_move(selected_cube)
if not is_over:
draw_reaction(cubes_to_update)
if not is_over and grid_updated and len(cubes_to_update) == 0:
cur_player = 1 - cur_player
write_grid()
grid_updated = False
move_read = False
draw_text((-5, 5.0, 30.0), "CHAIN REACTION", 32, (120, 120, 220, 255))
draw_text((-5, 5.5, 30.0), "CSE Fest 2019 - AI Contest", 24, (120, 120, 220, 255))
if cur_player == 0:
draw_text((-5, 4, 30.0), "Player 1's move", 24, (250, 10, 10, 255))
else:
draw_text((-5, 4, 30.0), "Player 2's move", 24, (10, 250, 10, 255))
glColor3f(1-cur_player, cur_player, 0)
draw_grid()
draw_spheres()
if invalid_move:
draw_text((-4, 1, 30.0), "Invalid Move by Player" + str(cur_player+1), 64, (120, 120, 220, 255))
is_over = True
if check_winner() != -1:
draw_text((-2.5, 0, 30.0), "Player " + str(check_winner()+1)+" Wins", 64, (120, 120, 220, 255))
is_over = True
pygame.display.flip()
pygame.time.wait(10)
if __name__ == "__main__":
init()
display_grid()