def main():
ch_dir('2_ssim_precision')
for x_position_update, patch_shift_x in position_updates.items():
for y_position_update, patch_shift_y in position_updates.items():
exp_name = f'ssim_precision_x_{x_position_update}_y_{y_position_update}'
output_name = construct_file_name(exp_name)
with open(output_name + '.log', 'w') as f:
f.writelines([
f'Log file for experiment {output_name}\n',
'The experiment presents one big gabor patch in pink noise scene.\n'
f'New pink noise is generated every {base_period:.2f} s\n',
f'\nExperiment settings:\n',
f'Scene dimensions: {base_size}\n',
f'Length [s]: {length}\n',
f'FPS: {fps}\n',
f'PPD: {ppd}\n',
f'Contrast: {base_contrast:.2f}\n',
f'Patch position: {base_position}\n',
f'Position update (x, y) [s^-1]: {(patch_shift_x, patch_shift_y)}\n',
])
base_noise = ContinuousNoiseGenerator(base_size,
base_size,
PinkNoise(
base_size, base_size),
period=base_period)
patch_generator = GaborGenerator(patch_size_deg=patch_size_deg,
ppd=ppd)
noise_with_gabor = PatchedNoiseGenerator(
base_size,
base_size,
base_noise,
[(patch_generator,
get_position_updater(
(patch_shift_x, patch_shift_y), base_position))],
contrast=base_contrast)
field_names = []
output_generators = []
field_names.extend([
'ssim_gabor_noise_vs_gabor', 'ssim_noise_vs_gabor',
'ssim_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: ssim(noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch(), alpha,
beta, gamma),
lambda: ssim(base_noise.get_next_frame(0),
patch_generator.get_normalized_patch(), alpha,
beta, gamma),
lambda: ssim(noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0), alpha, beta, gamma),
])
field_names.extend([
'cw_ssim_gabor_noise_vs_gabor', 'cw_ssim_noise_vs_gabor',
'cw_ssim_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: cw_ssim(noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch(), alpha,
beta, gamma),
lambda: cw_ssim(base_noise.get_next_frame(0),
patch_generator.get_normalized_patch(), alpha,
beta, gamma),
lambda: cw_ssim(noise_with_gabor.get_next_frame(
0), base_noise.get_next_frame(0), alpha, beta, gamma),
])
generate_experiment_output(output_name=output_name,
generator=noise_with_gabor,
fields=field_names,
outputs=output_generators)
def run_experiment(size=500,
length=10,
ppd=60,
fps=30,
exp_name='test',
live=True,
output_diff=False,
delimiter=';',
gabor=True,
alpha=1,
beta=1,
gamma=1,
theta_speed: int = None,
phase_speed: int = None,
freq_speed: int = None,
patch_position=(0, 0),
patch_shift_x=0,
patch_shift_y=0,
contrast=0.5,
period=1,
output_values: [str] = None,
granularity=0):
width = height = size
if 'run' in exp_name:
base_noise = RunningPinkNoise(width, height, period=period * length)
elif 'v2' in exp_name:
base_noise = PinkNoise2(width, height, length=length, deg=1 / 100)
else:
base_noise = ContinuousNoiseGenerator(width,
height,
PinkNoise(width, height),
period=period)
patch_constructor = get_patch_generator(gabor)
patch_generator = patch_constructor(patch_size_deg=size / ppd,
ppd=ppd,
update_list=get_patch_value_updates(
theta_speed, phase_speed,
freq_speed))
noise_with_gabor = PatchedNoiseGenerator(
width,
height,
base_noise, [(patch_generator,
get_position_updater(
(patch_shift_x, patch_shift_y), patch_position))],
contrast=contrast)
if output_diff:
diff_noise = DifferenceNoiseGenerator(noise_with_gabor, period)
else:
diff_noise = None
output_name = construct_file_name(exp_name)
with open(output_name + '.log', 'w') as f:
f.writelines([
f'Log file for experiment {output_name}\n',
f'The experiment presents one big {"gabor" if gabor else "plaid"} patch in pink noise scene.\n'
f'New pink noise is generated every {period:.2f} s\n',
f'\nExperiment settings:\n',
f'Scene dimensions: {size}\n',
f'Length [s]: {length}\n',
f'FPS: {fps}\n',
f'PPD: {ppd}\n',
f'Contrast: {contrast:.2f}\n',
f'Patch position: {patch_position}\n',
f'Position update (x, y) [s^-1]: {(patch_shift_x, patch_shift_y)}\n',
f'Theta update [s^-1]: {theta_speed or 0:.2f}\n',
f'Phase update [s^-1]: {phase_speed or 0:.2f}\n',
f'Frequency update [s^-1]: {freq_speed or 0:.2f}\n',
])
output_values = [] if output_values is None else output_values
fieldnames = []
output_generators = []
for output_value in output_values:
output_value = output_value.lower()
if output_value == 'luminance':
fieldnames.extend([
'compare_lum_gabor_noise_vs_gabor',
'compare_lum_noise_vs_gabor',
'compare_lum_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: luminance_comparison(
noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: luminance_comparison(
base_noise.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: luminance_comparison(
noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0)),
])
elif output_value == 'contrast':
fieldnames.extend([
'compare_con_gabor_noise_vs_gabor',
'compare_con_noise_vs_gabor',
'compare_con_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: contrast_comparison(
noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: contrast_comparison(
base_noise.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: contrast_comparison(noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0)),
])
elif output_value == 'structure':
fieldnames.extend([
'compare_str_gabor_noise_vs_gabor',
'compare_str_noise_vs_gabor',
'compare_str_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: structural_similarity(
noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: structural_similarity(
base_noise.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: structural_similarity(
noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0)),
])
elif output_value == 'cw_structure':
fieldnames.extend([
'compare_cw_str_gabor_noise_vs_gabor',
'compare_cw_str_noise_vs_gabor',
'compare_cw_str_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: phase_invariant_similarity(
noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: phase_invariant_similarity(
base_noise.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: phase_invariant_similarity(
noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0)),
])
elif output_value == 'ssim':
fieldnames.extend([
'ssim_gabor_noise_vs_gabor', 'ssim_noise_vs_gabor',
'ssim_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: ssim(noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch(), alpha,
beta, gamma),
lambda: ssim(base_noise.get_next_frame(0),
patch_generator.get_normalized_patch(), alpha,
beta, gamma),
lambda: ssim(noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0), alpha, beta, gamma),
])
elif output_value == 'cw_ssim':
fieldnames.extend([
'cw_ssim_gabor_noise_vs_gabor', 'cw_ssim_noise_vs_gabor',
'cw_ssim_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: cw_ssim(noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch(), alpha,
beta, gamma),
lambda: cw_ssim(base_noise.get_next_frame(0),
patch_generator.get_normalized_patch(), alpha,
beta, gamma),
lambda: cw_ssim(noise_with_gabor.get_next_frame(
0), base_noise.get_next_frame(0), alpha, beta, gamma),
])
elif output_value == 'pattern_search_ssim' and granularity:
simple_patch_comparator = PatchComparator(size / ppd,
ppd,
gabor,
granularity=granularity,
alpha=alpha,
beta=beta,
gamma=gamma)
fieldnames.extend([
'simple_ssim_gabor_noise_vs_patch_search',
'simple_ssim_noise_vs_patch_search',
'simple_ssim_gabor_noise_vs_noise',
])
output_generators.extend([
lambda: simple_patch_comparator.get_best_ssim_match(
noise_with_gabor.get_next_frame(0)),
lambda: simple_patch_comparator.get_best_ssim_match(
base_noise.get_next_frame(0)),
lambda: ssim(noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0), alpha, beta, gamma)
])
elif output_value == 'pattern_search_cw_ssim' and granularity:
complex_patch_comparator = PatchComparator(size / ppd,
ppd,
gabor,
granularity=granularity,
alpha=alpha,
beta=beta,
gamma=gamma,
simple=False)
fieldnames.extend([
'cw_ssim_gabor_noise_vs_patch_search',
'cw_ssim_noise_vs_patch_search',
'cw_ssim_gabor_noise_vs_noise',
])
output_generators.extend([
lambda: complex_patch_comparator.get_best_ssim_match(
noise_with_gabor.get_next_frame(0)),
lambda: complex_patch_comparator.get_best_ssim_match(
base_noise.get_next_frame(0)),
lambda: cw_ssim(noise_with_gabor.get_next_frame(
0), base_noise.get_next_frame(0), alpha, beta, gamma),
])
elif output_value == 'diff' and output_diff:
fieldnames.extend([
'diff_gabor_noise_max',
'diff_gabor_noise_min',
'diff_gabor_noise_mean',
])
# noinspection PyArgumentList
output_generators.extend([
lambda: diff_noise.get_next_frame(0).max(),
lambda: diff_noise.get_next_frame(0).min(),
lambda: diff_noise.get_next_frame(0).mean(),
])
else:
raise ValueError(f'{output_value} is not a valid output value')
noise_generator = NoiseGeneratorWithCSVOutput(
generator=diff_noise or noise_with_gabor,
file_name=output_name + ".csv",
field_names=fieldnames,
output_generators=output_generators)
if live:
output = PygletOutput(noise_generator.get_next_frame, width, height)
else:
secondary_outputs = [('original', noise_with_gabor.get_next_frame)
] if output_diff else []
output = VideoOutput(noise_generator.get_next_frame,
width,
height,
secondary_outputs=secondary_outputs,
FPS=fps,
length=length,
video_name=output_name + ".avi")
output.run()
hasattr(output, '__del__') and output.__del__()
noise_generator.__del__()
def run_experiment(
exp_name,
theta_speed: int = None,
phase_speed: int = None,
freq_speed: int = None,
):
width = height = scene_size
base_noise = ContinuousNoiseGenerator(width,
height,
PinkNoise(width, height),
period=period)
update_list = [] if theta_speed is None else [
*get_patch_value_updates('theta', theta_speed),
*get_patch_value_updates('phase', phase_speed),
*get_patch_value_updates('freq', freq_speed, initial_value=6),
]
patch_generator = GaborGenerator(patch_size_deg=patch_size_deg,
ppd=ppd,
update_list=update_list)
noise_with_gabor = PatchedNoiseGenerator(
width,
height,
base_noise, [(patch_generator,
get_position_updater(patch_position=patch_position))],
contrast=contrast)
patch_size = patch_size_deg * ppd
# TODO: tmp variable to be used in later check
diff_noise = None
if 'ssim' in exp_name:
if 'true' in exp_name:
def get_ssim(window):
return ssim(window,
patch_generator.get_normalized_patch(),
alpha=0,
beta=-0.5,
gamma=0.5)
else:
patch_comparator = PatchComparator(patch_size_deg,
ppd,
detect_gabor=True,
granularity=granularities)
def get_ssim(window):
return patch_comparator.get_best_ssim_match(window)
def get_window_ssim(x1, x2, y1, y2):
window = noise_with_gabor.get_next_frame(0)[x1:x2, y1:y2]
if window.shape != (patch_size, patch_size):
x = y = 0
if window.shape[0] < patch_size and x1 == 0:
x = patch_size // 2
if window.shape[1] < patch_size and y1 == 0:
y = patch_size // 2
window = value_fill(window,
x,
y, (patch_size, patch_size),
value=0)
return get_ssim(window)
heat_map = HeatMapGenerator(
noise_with_gabor,
window_size=patch_size,
aggregate_function=transform_to_probabilistic_distribution,
process_function=get_window_ssim)
else:
def get_window_diff(x1, x2, y1, y2, diff_mean):
movement = np.abs(
diff_noise.get_next_frame(0)[x1:x2, y1:y2].mean() - diff_mean)
return movement
def get_scene_properties():
return {
'diff_mean': diff_noise.get_next_frame(0).mean(),
}
if 'pure' in exp_name:
diff_noise = PureDifferenceNoiseGenerator(noise_with_gabor)
elif 'avg' in exp_name:
diff_noise = AvgDifferenceNoiseGenerator(noise_with_gabor, period)
else:
diff_noise = DifferenceNoiseGenerator(noise_with_gabor, period)
heat_map = HeatMapGenerator(
diff_noise,
window_size=patch_size,
aggregate_function=transform_to_probabilistic_distribution,
compute_cached_values=get_scene_properties,
process_function=get_window_diff)
output_name = construct_file_name(exp_name)
with open(output_name + '.log', 'w') as f:
f.writelines([
f'Log file for experiment {output_name}',
f'The experiment presents one gabor patch in pink noise scene. '
f'New pink noise is generated every {period:.2f} s',
f'PPD: {ppd}',
f'Experiment settings:',
f'Scene dimensions: {scene_size}',
f'Length [s]: {length}',
f'Contrast: {contrast:.2f}',
f'Patch position: {patch_position}',
f'Patch size [deg]: {patch_size_deg}',
f'Position update (x, y) [s^-1]: {patch_shift}',
f'Theta update [s^-1]: {theta_speed or 0:.2f}',
f'Phase update [s^-1]: {phase_speed or 0:.2f}',
f'Frequency update [s^-1]: {freq_speed or 0:.2f}',
])
secondary_outputs = [('original', noise_with_gabor.get_next_frame)]
if diff_noise is not None:
secondary_outputs.append(('diff', diff_noise.get_next_frame))
video_output = VideoOutput(heat_map.get_next_frame,
width,
height,
secondary_outputs=secondary_outputs,
FPS=fps,
length=length,
video_name=output_name + ".avi")
video_output.run()
video_output.__del__()
def main():
ch_dir('1_simple_poc')
for contrast_setting, contrast in contrast_settings.items():
for position_setting, patch_position in position_settings.items():
exp_name = f'{contrast_setting}_{position_setting}_patch'
output_name = construct_file_name(exp_name)
with open(output_name + '.log', 'w') as f:
f.writelines([
f'Log file for experiment {output_name}\n',
'The experiment presents one big gabor patch in pink noise scene.\n'
f'New pink noise is generated every {base_period:.2f} s\n',
f'\nExperiment settings:\n',
f'Scene dimensions: {base_size}\n',
f'Length [s]: {length}\n',
f'FPS: {fps}\n',
f'PPD: {ppd}\n',
f'Contrast: {contrast:.2f}\n',
f'Patch position: {patch_position}\n',
])
base_noise = ContinuousNoiseGenerator(base_size,
base_size,
PinkNoise(
base_size, base_size),
period=base_period)
patch_generator = GaborGenerator(patch_size_deg=patch_size_deg,
ppd=ppd)
noise_with_gabor = PatchedNoiseGenerator(
base_size,
base_size,
base_noise, [(patch_generator, lambda dt: patch_position)],
contrast=contrast)
field_names = []
output_generators = []
field_names.extend([
'compare_lum_gabor_noise_vs_gabor',
'compare_lum_noise_vs_gabor',
'compare_lum_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: luminance_comparison(
noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: luminance_comparison(
base_noise.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: luminance_comparison(
noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0)),
])
field_names.extend([
'compare_con_gabor_noise_vs_gabor',
'compare_con_noise_vs_gabor',
'compare_con_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: contrast_comparison(
noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: contrast_comparison(
base_noise.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: contrast_comparison(noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0)),
])
field_names.extend([
'compare_str_gabor_noise_vs_gabor',
'compare_str_noise_vs_gabor',
'compare_str_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: structural_similarity(
noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: structural_similarity(
base_noise.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: structural_similarity(
noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0)),
])
field_names.extend([
'compare_cw_str_gabor_noise_vs_gabor',
'compare_cw_str_noise_vs_gabor',
'compare_cw_str_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: phase_invariant_similarity(
noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: phase_invariant_similarity(
base_noise.get_next_frame(0),
patch_generator.get_normalized_patch()),
lambda: phase_invariant_similarity(
noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0)),
])
generate_experiment_output(output_name=output_name,
generator=noise_with_gabor,
fields=field_names,
outputs=output_generators)
period = 1
ppd = 30
patch_size_deg = 2
contrast = 0.5
patch_shift = (0, 0)
if __name__ == '__main__':
args = get_command_line_args()
width = height = args['size']
patch_position = args['patch_position']
base_noise = ContinuousNoiseGenerator(width,
height,
PinkNoise(width, height),
period=period)
# base_noise = PinkNoise2(width, height)
# base_noise = RunningPinkNoise(width, height, period * 20)
patch_generator = GaborGenerator(
patch_size_deg=patch_size_deg,
ppd=ppd,
theta=90,
# update_list=get_patch_value_updates(args['theta_speed'], args['phase_speed'], args['freq_speed']))
update_list=get_patch_value_updates('phase', -pi / 10))
noise_with_gabor = PatchedNoiseGenerator(
width,
height,
base_noise, [(patch_generator,
get_position_updater(patch_shift=patch_shift,
patch_position=patch_position))],
Inter = 'interpolated'
Pink = 'pink'
Run = 'running'
White = 'white'
if __name__ == '__main__':
# parser = argparse.ArgumentParser()
# parser.add_argument("--noise", default=Noises.Inter.value, type=str)
# noise_type = parser.parse_args().noise
ch_dir('spectra')
# for noise_type in [Noises.Run.value]:
for noise_type in (noise.value for noise in Noises):
if noise_type == Noises.Inter.value:
noise = ContinuousNoiseGenerator(base_size, base_size, PinkNoise(base_size, base_size), period=base_period)
elif noise_type == Noises.Pink.value:
# Beware! PinkNoise2 is fixed in time length so running it for for longer than 5 s will crash the app
noise = PinkNoise2(base_size, base_size, length=length)
elif noise_type == Noises.Run.value:
noise = RunningPinkNoise(base_size, base_size, base_period * 5)
elif noise_type == Noises.White.value:
noise = ContinuousNoiseGenerator(base_size, base_size, WhiteNoise(base_size, base_size), period=base_period)
else:
raise ValueError(f'{noise_type} is not a recognized noise type')
def get_spectra(dt):
frame = noise.get_next_frame(dt) - .5
# frame = (np.ones((base_size, base_size))-0.5)
def main():
ch_dir('3_changing_gabor_adv_detection')
for update_type, update_options in patch_updates.items():
for granularity, granularity_value in granularities.items():
update_speed = update_options['middle']
exp_name = f'patch_{update_type}_granularity_{granularity}'
output_name = construct_file_name(exp_name)
with open(output_name + '.log', 'w') as f:
f.writelines([f'Log file for experiment {output_name}\n',
'The experiment presents one big gabor patch in pink noise scene.\n'
f'New pink noise is generated every {base_period:.2f} s\n',
f'\nExperiment settings:\n',
f'Scene dimensions: {base_size}\n',
f'Length [s]: {length}\n',
f'FPS: {fps}\n',
f'PPD: {ppd}\n',
f'Contrast: {base_contrast:.2f}\n',
f'{update_type} update [s^-1]: {update_speed}\n',
])
base_noise = ContinuousNoiseGenerator(base_size, base_size, PinkNoise(base_size, base_size),
period=base_period)
patch_generator = GaborGenerator(patch_size_deg=patch_size_deg, ppd=ppd,
update_list=get_patch_value_updates(update_type, update_speed,
initial_value=6
if update_type == 'freq'
else 0))
noise_with_gabor = PatchedNoiseGenerator(base_size, base_size, base_noise,
[(patch_generator, lambda dt: base_position)],
contrast=base_contrast)
field_names = []
output_generators = []
field_names.extend([
'ssim_gabor_noise_vs_gabor',
'ssim_noise_vs_gabor',
'ssim_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: ssim(noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch(),
alpha, beta, gamma),
lambda: ssim(base_noise.get_next_frame(0),
patch_generator.get_normalized_patch(),
alpha, beta, gamma),
lambda: ssim(noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0),
alpha, beta, gamma),
])
field_names.extend([
'simple_ssim_gabor_noise_vs_patch_search',
'simple_ssim_noise_vs_patch_search',
'simple_ssim_gabor_noise_vs_noise',
])
simple_patch_comparator = PatchComparator(patch_size_deg, ppd, granularity=granularity_value,
alpha=alpha, beta=beta, gamma=gamma)
output_generators.extend([
lambda: simple_patch_comparator.get_best_ssim_match(noise_with_gabor.get_next_frame(0)),
lambda: simple_patch_comparator.get_best_ssim_match(base_noise.get_next_frame(0)),
lambda: ssim(noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0),
alpha, beta, gamma)
])
field_names.extend([
'cw_ssim_gabor_noise_vs_gabor',
'cw_ssim_noise_vs_gabor',
'cw_ssim_gabor_noise_vs_noise'
])
output_generators.extend([
lambda: cw_ssim(noise_with_gabor.get_next_frame(0),
patch_generator.get_normalized_patch(),
alpha, beta, gamma),
lambda: cw_ssim(base_noise.get_next_frame(0),
patch_generator.get_normalized_patch(),
alpha, beta, gamma),
lambda: cw_ssim(noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0),
alpha, beta, gamma),
])
field_names.extend([
'cw_ssim_gabor_noise_vs_patch_search',
'cw_ssim_noise_vs_patch_search',
'cw_ssim_gabor_noise_vs_noise',
])
complex_patch_comparator = PatchComparator(patch_size_deg, ppd, granularity=granularity_value,
alpha=alpha, beta=beta, gamma=gamma, simple=False)
output_generators.extend([
lambda: complex_patch_comparator.get_best_ssim_match(noise_with_gabor.get_next_frame(0)),
lambda: complex_patch_comparator.get_best_ssim_match(base_noise.get_next_frame(0)),
lambda: cw_ssim(noise_with_gabor.get_next_frame(0),
base_noise.get_next_frame(0),
alpha, beta, gamma),
])
generate_experiment_output(output_name=output_name,
generator=noise_with_gabor,
fields=field_names,
outputs=output_generators)
def run_experiment(exp_name, env, patch, position, methods=None):
methods = methods if methods is not None else all_methods
base_noise = SingleNoiseGenerator(width, height, PinkNoise(width, height)) \
if env == 'S' else ContinuousNoiseGenerator(width, height, PinkNoise(width, height), period=period)
update_list = [] if patch == 'S' else [
*get_patch_value_updates('theta', patch_updates['theta']['middle']),
*get_patch_value_updates('phase', patch_updates['phase']['middle']),
*get_patch_value_updates('freq', patch_updates['freq']['slow'], initial_value=6),
]
patch_generator = GaborGenerator(
patch_size_deg=patch_size_deg,
ppd=ppd,
update_list=update_list)
patch_shift = (0, 0) if position == 'S' else shift_value
patch_position_updater = get_position_updater(patch_shift=patch_shift,
patch_position=patch_position)
noise_with_gabor = PatchedNoiseGenerator(width, height, base_noise,
[(patch_generator, patch_position_updater)],
contrast=contrast)
output_name = construct_file_name(exp_name)
with open(output_name + '.log', 'w') as f:
f.writelines([f'Log file for experiment {output_name}',
f'The experiment presents one gabor patch in pink noise scene.'
f'Scene: {"static" if env == "S" else "dynamic"}'
f'Position: {"static" if position == "S" else "dynamic"}'
f'Patch: {"static" if patch == "S" else "dynamic"}'
])
# The type is needed so PyCharm won't complain later
secondary_outputs: List[Tuple[str, Callable[[int], ndarray]]] = []
for method in methods:
try:
heat_map = add_noise(method,
secondary_outputs=secondary_outputs,
base_noise=noise_with_gabor,
get_patch=patch_generator.get_normalized_patch
)
except ValueError:
print('Invalid noise type added')
else:
secondary_outputs.append((f'{method}_heat', heat_map.get_next_frame))
def update_all(dt=1):
frame = noise_with_gabor.get_next_frame(dt)
# Update secondary outputs that won't be updated by the VideoOutput
for _, update_sec_output in secondary_outputs:
update_sec_output(dt)
return frame
video_output = VideoOutput(update_all, width, height, secondary_outputs=secondary_outputs,
FPS=fps, length=length, video_name=output_name + ".avi")
video_output.run()
video_output.__del__()
return output_name