def output(partIdx):
"""Uses the student code to compute the output for test cases."""
outputString = ''
if partIdx == 0: # reduce and expand
outputString = str(int(part0.test()))
elif partIdx == 1: # gauss_pyr and lapl_pyr
outputString = str(int(part1.test()))
elif partIdx == 2: # blend and collapse
outputString = str(int(part2.test()))
return outputString
def output(partIdx):
"""Uses the student code to compute the output for test cases."""
outputString = ''
if partIdx == 0: # splitrgb
outputString = str(int(part0.test()))
elif partIdx == 1: # interlace
outputString = str(int(part1.test()))
elif partIdx == 2: # greyscale
outputString = str(int(part2.test()))
return outputString
def output(partIdx):
"""Uses the student code to compute the output for test cases."""
outputString = ''
if partIdx == 0: # splitrgb
outputString = str(int(part0.test()))
elif partIdx == 1: # interlace
outputString = str(int(part1.test()))
elif partIdx == 2: # greyscale
outputString = str(int(part2.test()))
return outputString
def output(partIdx):
"""Uses the student code to compute the output for test cases."""
outputString = ''
if partIdx == 0:
outputString = str(int(part0.test()))
elif partIdx == 1:
outputString = str(int(part1.test()))
elif partIdx == 2:
outputString = str(int(part2.test()))
return outputString
def output(partIdx):
"""Uses the student code to compute the output for test cases."""
outputString = ''
if partIdx == 0:
outputString = str(int(part0.test()))
elif partIdx == 1:
outputString = str(int(part1.test()))
elif partIdx == 2:
outputString = str(int(part2.test()))
return outputString
def output(partIdx):
"""Uses the student code to compute the output for test cases."""
outputString = ''
if partIdx == 0: # reduce and expand
outputString = str(int(part0.test()))
elif partIdx == 1: # gauss_pyr and lapl_pyr
outputString = str(int(part1.test()))
elif partIdx == 2: # blend and collapse
outputString = str(int(part2.test()))
return outputString
def output(partIdx):
"""Uses the student code to compute the output for test cases."""
outputString = ''
if partIdx == 0: # convolve
outputString = str(int(part0.test()))
elif partIdx == 1: # gaussian
outputString = str(int(part1.test()))
elif partIdx == 2: # sharpen
outputString = str(int(part2.test()))
elif partIdx == 3: # median
outputString = str(int(part3.test()))
elif partIdx == 4: # theta and mag
outputString = str(int(part4.test()))
return outputString
def output(partIdx):
"""Uses the student code to compute the output for test cases."""
outputString = ''
if partIdx == 0: # convolve
outputString = str(int(part0.test()))
elif partIdx == 1: # gaussian
outputString = str(int(part1.test()))
elif partIdx == 2: # sharpen
outputString = str(int(part2.test()))
elif partIdx == 3: # median
outputString = str(int(part3.test()))
elif partIdx == 4: # theta and mag
outputString = str(int(part4.test()))
return outputString
def main():
datasets = getDatasets(regressors, regressand)
# Part 1 Training and Testing
print('P1 -- Training')
p1_model = part1.LinRegModel(draw_plots)
p1_training_mse, p1_weights_v = part1.train(p1_model, datasets)
p1_testing_mse = part1.test(p1_model, datasets)
print('P1 -- Training MSE: %.2f' % (p1_training_mse))
print('P1 -- Testing MSE: %.2f' % (p1_testing_mse))
# Part 2 Training and Testing
print('P2 -- Training')
p2_model = linear_model.LinearRegression()
p2_training_mse, p2_weights_v = part2.train(p2_model, datasets)
p2_testing_mse = part2.test(p2_model, datasets)
print('P2 -- Training MSE: %.2f' % (p2_training_mse))
print('P2 -- Testing MSE: %.2f' % (p2_testing_mse))
if t0:
conv_func = part0.convolve
apply_filter(conv_func, box_filter(2), 'box2')
else:
print "Please test your code using part0.py prior to using this function."
print "-"*15 + "part1" + "-"*15
t1 = part1.test()
print "Unit test: {}".format(t1)
if t1:
apply_filter(conv_func, part1.make_gaussian(5,3), 'gaussian5_3')
else:
print "Please test your code using part1.py prior to using this function."
print "-"*15 + "part2" + "-"*15
t2 = part2.test()
print "Unit test: {}".format(t2)
if t2:
apply_filter(conv_func, part2.make_sharp(5,3), 'sharp5_3')
else:
print "Please test your code using part2.py prior to using this function."
print "-"*15 + "part3" + "-"*15
t3 = part3.test()
print "Unit test: {}".format(t3)
if t3:
apply_median(5)
else:
print "Please test your code using part3.py prior to using this function."
conv_func = signal.convolve2d
if t0:
conv_func = part0.convolve
apply_filter(conv_func, box_filter(2), 'box2')
else:
print "Please test your code using part0.py prior to using this function."
print "-" * 15 + "part1" + "-" * 15
t1 = part1.test()
print "Unit test: {}".format(t1)
if t1:
apply_filter(conv_func, part1.make_gaussian(5, 3), 'gaussian5_3')
else:
print "Please test your code using part1.py prior to using this function."
print "-" * 15 + "part2" + "-" * 15
t2 = part2.test()
print "Unit test: {}".format(t2)
if t2:
apply_filter(conv_func, part2.make_sharp(5, 3), 'sharp5_3')
else:
print "Please test your code using part2.py prior to using this function."
print "-" * 15 + "part3" + "-" * 15
t3 = part3.test()
print "Unit test: {}".format(t3)
if t3:
apply_median(5)
else:
print "Please test your code using part3.py prior to using this function."
diff3[i,j] = alpha*(i-j) - diff2[i,j]
return viz_diff(diff1), viz_diff(diff2), viz_diff(diff3),\
part2.synthesize_loop(video_volume, idxs[0]+2, idxs[1]+2)
if __name__ == "__main__":
print 'Performing unit tests.'
if not part0.test():
print 'part0 failed. halting'
sys.exit()
if not part1.test():
print 'part1 failed. halting'
sys.exit()
if not part2.test():
print 'part2 failed. halting'
sys.exit()
print 'Unit tests passed.'
sourcefolder = os.path.abspath(os.path.join(os.curdir, 'videos', 'source'))
outfolder = os.path.abspath(os.path.join(os.curdir, 'videos', 'out'))
print 'Searching for video folders in {} folder'.format(sourcefolder)
# Extensions recognized by opencv
exts = ['.bmp', '.pbm', '.pgm', '.ppm', '.sr', '.ras', '.jpeg', '.jpg',
'.jpe', '.jp2', '.tiff', '.tif', '.png']
# For every image in the source directory
for viddir in os.listdir(sourcefolder):
return lapl_pyr_black, lapl_pyr_white, gauss_pyr_black, gauss_pyr_white, \
gauss_pyr_mask, outpyr, outimg
if __name__ == "__main__":
print 'Performing unit tests.'
if not part0.test():
print 'part0 failed. halting'
sys.exit()
if not part1.test():
print 'part1 failed. halting'
sys.exit()
if not part2.test():
print 'part2 failed. halting'
sys.exit()
print 'Unit tests passed.'
sourcefolder = os.path.abspath(os.path.join(os.curdir, 'images', 'source'))
outfolder = os.path.abspath(os.path.join(os.curdir, 'images', 'output'))
print 'Searching for images in {} folder'.format(sourcefolder)
# Extensions recognized by opencv
exts = [
'.bmp', '.pbm', '.pgm', '.ppm', '.sr', '.ras', '.jpeg', '.jpg', '.jpe',
'.jp2', '.tiff', '.tif', '.png'
]