Python GreedySearch Examples

Example #1

def test_init():
    I,J = 10,9
    values_K = [1,2,4,5]
    values_L = [5,4,3]
    R = 2*numpy.ones((I,J))
    M = numpy.ones((I,J))
    priors = { 'alpha':3, 'beta':4, 'lambdaF':5, 'lambdaS':6, 'lambdaG':7 }
    initFG = 'exp'
    initS = 'random'
    iterations = 11
    
    greedysearch = GreedySearch(classifier,values_K,values_L,R,M,priors,initS,initFG,iterations)
    assert greedysearch.I == I
    assert greedysearch.J == J
    assert numpy.array_equal(greedysearch.values_K, values_K)
    assert numpy.array_equal(greedysearch.values_L, values_L)
    assert numpy.array_equal(greedysearch.R, R)
    assert numpy.array_equal(greedysearch.M, M)
    assert greedysearch.priors == priors
    assert greedysearch.iterations == iterations
    assert greedysearch.initS == initS
    assert greedysearch.initFG == initFG
    assert greedysearch.all_performances['BIC'] == []
    assert greedysearch.all_performances['AIC'] == []
    assert greedysearch.all_performances['loglikelihood'] == []

Example #2

def test_search():
    # Check whether we get no exceptions...
    I,J = 10,9
    values_K = [1,2,4,5]
    values_L = [5,4,3]
    R = 2*numpy.ones((I,J))
    R[0,0] = 1
    M = numpy.ones((I,J))
    priors = { 'alpha':3, 'beta':4, 'lambdaF':5, 'lambdaS':6, 'lambdaG':7 }
    initFG = 'exp'
    initS = 'exp'
    iterations = 1
    search_metric = 'BIC'
    
    numpy.random.seed(0)
    random.seed(0)
    greedysearch = GreedySearch(classifier,values_K,values_L,R,M,priors,initS,initFG,iterations)
    greedysearch.search(search_metric)
    
    with pytest.raises(AssertionError) as error:
        greedysearch.all_values('FAIL')
    assert str(error.value) == "Unrecognised metric name: FAIL."
    
    # We go from: (1,5) -> (1,4) -> (1,3), and try 6 locations
    assert len(greedysearch.all_values('BIC')) == 6

Example #3

File: test_greedy_search_bnmtf.py Project: hansaimlim/BNMTF

def test_best_value():
    I, J = 10, 9
    values_K = [1, 2, 4, 5]
    values_L = [5, 4, 3]
    R = 2 * numpy.ones((I, J))
    M = numpy.ones((I, J))
    priors = {'alpha': 3, 'beta': 4, 'lambdaF': 5, 'lambdaS': 6, 'lambdaG': 7}
    initFG = 'exp'
    initS = 'random'
    iterations = 11

    greedysearch = GreedySearch(classifier, values_K, values_L, R, M, priors,
                                initS, initFG, iterations)
    greedysearch.all_performances = {
        'BIC': [(1, 2, 10.), (2, 2, 20.), (2, 3, 30.), (2, 4, 5.),
                (5, 3, 20.)],
        'AIC': [(1, 2, 10.), (2, 2, 20.), (2, 3, 4.), (2, 4, 25.),
                (5, 3, 20.)],
        'loglikelihood': [(1, 2, 10.), (2, 2, 8.), (2, 3, 30.), (2, 4, 40.),
                          (5, 3, 20.)]
    }
    assert greedysearch.best_value('BIC') == (2, 4)
    assert greedysearch.best_value('AIC') == (2, 3)
    assert greedysearch.best_value('loglikelihood') == (2, 2)
    with pytest.raises(AssertionError) as error:
        greedysearch.all_values('FAIL')
    assert str(error.value) == "Unrecognised metric name: FAIL."

Example #4

# Generate data
(_, _, _, _, _, R) = generate_dataset(I, J, true_K, true_L, lambdaF, lambdaS,
                                      lambdaG, tau)
M = numpy.ones((I, J))
#M = try_generate_M(I,J,fraction_unknown,attempts_M)

# Run the line search. The priors lambdaU and lambdaV need to be a single value (recall K is unknown)
priors = {
    'alpha': alpha,
    'beta': beta,
    'lambdaF': lambdaF[0, 0] / 10,
    'lambdaS': lambdaS[0, 0] / 10,
    'lambdaG': lambdaG[0, 0] / 10
}
greedy_search = GreedySearch(classifier, values_K, values_L, R, M, priors,
                             initS, initFG, iterations, restarts)
greedy_search.search(search_metric)

# Plot the performances of all three metrics
metrics = ['loglikelihood', 'BIC', 'AIC', 'MSE', 'ELBO']
for metric in metrics:
    # Make three lists of indices X,Y,Z (K,L,metric)
    KLvalues = numpy.array(greedy_search.all_values(metric))
    (list_values_K, list_values_L, values) = zip(*KLvalues)

    # Set up a regular grid of interpolation points
    Ki, Li = (numpy.linspace(min(list_values_K), max(list_values_K), 100),
              numpy.linspace(min(list_values_L), max(list_values_L), 100))
    Ki, Li = numpy.meshgrid(Ki, Li)

    # Interpolate

Example #5

File: run_greedy_search_bnmtf_gibbs.py Project: hansaimlim/BNMTF

lambdaS = numpy.ones((true_K,true_L))
lambdaG = numpy.ones((J,true_L))

classifier = bnmtf_gibbs_optimised
initFG = 'kmeans'
initS = 'random'

search_metric = 'AIC'

# Generate data
(_,_,_,_,_,R) = generate_dataset(I,J,true_K,true_L,lambdaF,lambdaS,lambdaG,tau)
M = try_generate_M(I,J,fraction_unknown,attempts_M)

# Run the line search. The priors lambdaU and lambdaV need to be a single value (recall K is unknown)
priors = { 'alpha':alpha, 'beta':beta, 'lambdaF':lambdaF[0,0], 'lambdaS':lambdaS[0,0], 'lambdaG':lambdaG[0,0] }
greedy_search = GreedySearch(classifier,values_K,values_L,R,M,priors,initS,initFG,iterations,restarts)
greedy_search.search(search_metric,burn_in,thinning)

# Plot the performances of all three metrics
for metric in ['loglikelihood', 'BIC', 'AIC', 'MSE']:
    # Make three lists of indices X,Y,Z (K,L,metric)
    KLvalues = numpy.array(greedy_search.all_values(metric))
    (list_values_K,list_values_L,values) = zip(*KLvalues)
    
    # Set up a regular grid of interpolation points
    Ki, Li = (numpy.linspace(min(list_values_K), max(list_values_K), 100), 
              numpy.linspace(min(list_values_L), max(list_values_L), 100))
    Ki, Li = numpy.meshgrid(Ki, Li)
    
    # Interpolate
    rbf = scipy.interpolate.Rbf(list_values_K, list_values_L, values, function='linear')