How to use the gala.classify function in gala

To help you get started, we’ve selected a few gala examples, based on popular ways it is used in public projects.

Secure your code as it's written. Use Snyk Code to scan source code in minutes - no build needed - and fix issues immediately.

janelia-flyem / gala / tests / _util / generate-test-results.py View on Github

import numpy as np
from gala import imio, classify, features, agglo, evaluate as ev
gt_train, pr_train, p4_train, ws_train = map(imio.read_h5_stack, ['example-data/train-gt.lzf.h5', 'example-data/train-p1.lzf.h5', 'example-data/train-p4.lzf.h5', 'example-data/train-ws.lzf.h5'])
gt_test, pr_test, p4_test, ws_test = map(imio.read_h5_stack, ['example-data/test-gt.lzf.h5', 'example-data/test-p1.lzf.h5', 'example-data/test-p4.lzf.h5', 'example-data/test-ws.lzf.h5'])
fm = features.moments.Manager()
fh = features.histogram.Manager()
fc = features.base.Composite(children=[fm, fh])
g_train = agglo.Rag(ws_train, pr_train, feature_manager=fc)
np.random.RandomState(0)
(X, y, w, merges) = map(np.copy, map(np.ascontiguousarray,
                        g_train.learn_agglomerate(gt_train, fc)[0]))
print X.shape
np.savez('example-data/train-set.npz', X=X, y=y)
y = y[:, 0]
rf = classify.DefaultRandomForest()
X.shape
np.random.RandomState(0)
rf = rf.fit(X, y)
classify.save_classifier(rf, 'example-data/rf-1.joblib')
learned_policy = agglo.classifier_probability(fc, rf)
g_test = agglo.Rag(ws_test, pr_test, learned_policy, feature_manager=fc)
g_test.agglomerate(0.5)
seg_test1 = g_test.get_segmentation()
imio.write_h5_stack(seg_test1, 'example-data/test-seg1.lzf.h5', compression='lzf')
g_train4 = agglo.Rag(ws_train, p4_train, feature_manager=fc)
np.random.RandomState(0)
(X4, y4, w4, merges4) = map(np.copy, map(np.ascontiguousarray,
                            g_train4.learn_agglomerate(gt_train, fc)[0]))
print X4.shape
np.savez('example-data/train-set4.npz', X=X4, y=y4)
y4 = y4[:, 0]

janelia-flyem / gala / tests / _util / generate-test-results.py View on Github

learned_policy = agglo.classifier_probability(fc, rf)
g_test = agglo.Rag(ws_test, pr_test, learned_policy, feature_manager=fc)
g_test.agglomerate(0.5)
seg_test1 = g_test.get_segmentation()
imio.write_h5_stack(seg_test1, 'example-data/test-seg1.lzf.h5', compression='lzf')
g_train4 = agglo.Rag(ws_train, p4_train, feature_manager=fc)
np.random.RandomState(0)
(X4, y4, w4, merges4) = map(np.copy, map(np.ascontiguousarray,
                            g_train4.learn_agglomerate(gt_train, fc)[0]))
print X4.shape
np.savez('example-data/train-set4.npz', X=X4, y=y4)
y4 = y4[:, 0]
rf4 = classify.DefaultRandomForest()
np.random.RandomState(0)
rf4 = rf4.fit(X4, y4)
classify.save_classifier(rf4, 'example-data/rf-4.joblib')
learned_policy4 = agglo.classifier_probability(fc, rf4)
g_test4 = agglo.Rag(ws_test, p4_test, learned_policy4, feature_manager=fc)
g_test4.agglomerate(0.5)
seg_test4 = g_test4.get_segmentation()
imio.write_h5_stack(seg_test4, 'example-data/test-seg4.lzf.h5', compression='lzf')

results = np.vstack((
    ev.split_vi(ws_test, gt_test),
    ev.split_vi(seg_test1, gt_test),
    ev.split_vi(seg_test4, gt_test)
    ))

np.save('example-data/vi-results.npy', results)

janelia-flyem / gala / tests / test_gala.py View on Github

def train_and_save_classifier(training_data_file, filename,
                              classifier_kind='random forest'):
    X, y = load_training_data(training_data_file)
    cl = classify.get_classifier(classifier_kind)
    cl.fit(X, y)
    classify.save_classifier(cl, filename, use_joblib=False)

janelia-flyem / gala / benchmarks / bench_gala.py View on Github

memory['base RAG'] = asizeof(g)
    with timer() as t_features:
        g.set_feature_manager(em)
    times['build feature caches'] = t_features[0]
    memory['feature caches'] = asizeof(g) - memory['base RAG']
    with timer() as t_flat:
        _ignore = g.learn_flat(gttr, em)
    times['learn flat'] = t_flat[0]
    with timer() as t_gala:
        (X, y, w, e), allepochs = g.learn_agglomerate(gttr, em,
                                                      min_num_epochs=5)
        y = y[:, 0]  # ignore rand-sign and vi-sign schemes
    memory['training data'] = asizeof((X, y, w, e))
    times['learn agglo'] = t_gala[0]
    with timer() as t_train_classifier:
        cl = classify.DefaultRandomForest()
        cl.fit(X, y)
    times['classifier training'] = t_train_classifier[0]
    memory['classifier training'] = asizeof(cl)
    policy = agglo.classifier_probability(em, cl)
    wsts, prts, gtts = tsdata()
    gtest = agglo.Rag(wsts, prts, merge_priority_function=policy,
                      feature_manager=em)
    with timer() as t_segment:
        gtest.agglomerate(np.inf)
    times['segment test volume'] = t_segment[0]
    memory['segment test volume'] = asizeof(gtest)
    return times, memory

janelia-flyem / gala / benchmarks / bench_gala.py View on Github

def policy():
    rf = classify.DefaultRandomForest()
    cl = agglo.classifier_probability(em, rf)
    return cl

How to use the gala.classify function in gala

To help you get started, we’ve selected a few gala examples, based on popular ways it is used in public projects.

gala

Package Health Score

Popular gala functions

Similar packages