The source code and dockerfile for the GSW2024 AI Lab.
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import stormpy
from configurations import numpy_avail
class TestMatrixBuilder:
def test_matrix_builder(self):
builder = stormpy.SparseMatrixBuilder(force_dimensions=True)
matrix = builder.build()
assert matrix.nr_columns == 0
assert matrix.nr_rows == 0
assert matrix.nr_entries == 0
builder_5x5 = stormpy.SparseMatrixBuilder(5, 5, force_dimensions=False)
builder_5x5.add_next_value(0, 0, 0)
builder_5x5.add_next_value(0, 1, 0.1)
builder_5x5.add_next_value(2, 2, 22)
builder_5x5.add_next_value(2, 3, 23)
assert builder_5x5.get_last_column() == 3
assert builder_5x5.get_last_row() == 2
builder_5x5.add_next_value(3, 2, 32)
builder_5x5.add_next_value(3, 4, 34)
builder_5x5.add_next_value(4, 3, 43)
matrix_5x5 = builder_5x5.build()
assert matrix_5x5.nr_columns == 5
assert matrix_5x5.nr_rows == 5
assert matrix_5x5.nr_entries == 7
for e in matrix_5x5:
assert (e.value() == 0.1 and e.column == 1) or e.value() == 0 or (e.value() > 20 and e.column > 1)
def test_parametric_matrix_builder(self):
builder = stormpy.ParametricSparseMatrixBuilder(force_dimensions=True)
matrix = builder.build()
assert matrix.nr_columns == 0
assert matrix.nr_rows == 0
assert matrix.nr_entries == 0
builder_5x5 = stormpy.ParametricSparseMatrixBuilder(5, 5, force_dimensions=False)
one_pol = stormpy.RationalRF(1)
one_pol = stormpy.FactorizedPolynomial(one_pol)
first_val = stormpy.FactorizedRationalFunction(one_pol)
two_pol = stormpy.RationalRF(2)
two_pol = stormpy.FactorizedPolynomial(two_pol)
sec_val = stormpy.FactorizedRationalFunction(two_pol)
builder_5x5.add_next_value(0, 0, first_val)
builder_5x5.add_next_value(0, 1, first_val)
builder_5x5.add_next_value(2, 2, sec_val)
builder_5x5.add_next_value(2, 3, sec_val)
assert builder_5x5.get_last_column() == 3
assert builder_5x5.get_last_row() == 2
builder_5x5.add_next_value(3, 2, sec_val)
builder_5x5.add_next_value(3, 4, sec_val)
builder_5x5.add_next_value(4, 3, sec_val)
matrix_5x5 = builder_5x5.build()
assert matrix_5x5.nr_columns == 5
assert matrix_5x5.nr_rows == 5
assert matrix_5x5.nr_entries == 7
for e in matrix_5x5:
assert (e.value() == first_val and e.column < 2) or (e.value() == sec_val and e.column > 1)
def test_matrix_replace_columns(self):
builder = stormpy.SparseMatrixBuilder(3, 4, force_dimensions=False)
builder.add_next_value(0, 0, 0)
builder.add_next_value(0, 1, 1)
builder.add_next_value(0, 2, 2)
builder.add_next_value(0, 3, 3)
builder.add_next_value(1, 1, 1)
builder.add_next_value(1, 2, 2)
builder.add_next_value(1, 3, 3)
builder.add_next_value(2, 1, 1)
builder.add_next_value(2, 2, 2)
builder.add_next_value(2, 3, 3)
# replace rows
builder.replace_columns([3, 2, 1], 1)
matrix = builder.build()
assert matrix.nr_entries == 10
# Check if columns where replaced
for e in matrix:
assert (e.value() == 0 and e.column == 0) or (e.value() == 3 and e.column == 1) or (
e.value() == 2 and e.column == 2) or (e.value() == 1 and e.column == 3)
def test_parametric_matrix_replace_columns(self):
builder = stormpy.ParametricSparseMatrixBuilder(3, 4, force_dimensions=False)
one_pol = stormpy.RationalRF(1)
one_pol = stormpy.FactorizedPolynomial(one_pol)
first_val = stormpy.FactorizedRationalFunction(one_pol, one_pol)
two_pol = stormpy.RationalRF(2)
two_pol = stormpy.FactorizedPolynomial(two_pol)
sec_val = stormpy.FactorizedRationalFunction(two_pol, two_pol)
third_val = stormpy.FactorizedRationalFunction(one_pol, two_pol)
builder.add_next_value(0, 1, first_val)
builder.add_next_value(0, 2, sec_val)
builder.add_next_value(0, 3, third_val)
builder.add_next_value(1, 1, first_val)
builder.add_next_value(1, 2, sec_val)
builder.add_next_value(1, 3, third_val)
builder.add_next_value(2, 1, first_val)
builder.add_next_value(2, 2, sec_val)
builder.add_next_value(2, 3, third_val)
# replace rows
builder.replace_columns([3, 2], 2)
matrix = builder.build()
assert matrix.nr_entries == 9
# Check if columns where replaced
for e in matrix:
assert (e.value() == first_val and e.column == 1) or (e.value() == third_val and e.column == 2) or (
e.value() == sec_val and e.column == 3)
def test_matrix_builder_row_grouping(self):
num_rows = 5
builder = stormpy.SparseMatrixBuilder(num_rows, 6, has_custom_row_grouping=True, row_groups=2)
builder.new_row_group(1)
assert builder.get_current_row_group_count() == 1
builder.new_row_group(4)
assert builder.get_current_row_group_count() == 2
matrix = builder.build()
assert matrix.get_row_group_start(0) == 1
assert matrix.get_row_group_end(0) == 4
assert matrix.get_row_group_start(1) == 4
assert matrix.get_row_group_end(1) == 5
def test_parametric_matrix_builder_row_grouping(self):
num_rows = 5
builder = stormpy.ParametricSparseMatrixBuilder(num_rows, 6, has_custom_row_grouping=True, row_groups=2)
builder.new_row_group(1)
assert builder.get_current_row_group_count() == 1
builder.new_row_group(4)
assert builder.get_current_row_group_count() == 2
matrix = builder.build()
assert matrix.get_row_group_start(0) == 1
assert matrix.get_row_group_end(0) == 4
assert matrix.get_row_group_start(1) == 4
assert matrix.get_row_group_end(1) == 5
@numpy_avail
def test_matrix_from_numpy(self):
import numpy as np
array = np.array([[0, 2],
[3, 4],
[0.1, 24],
[-0.3, -4]], dtype='float64')
matrix = stormpy.build_sparse_matrix(array)
# Check matrix dimension
assert matrix.nr_rows == array.shape[0]
assert matrix.nr_columns == array.shape[1]
assert matrix.nr_entries == 8
# Check matrix values
for r in range(array.shape[1]):
row = matrix.get_row(r)
for e in row:
assert (e.value() == array[r, e.column])
@numpy_avail
def test_parametric_matrix_from_numpy(self):
import numpy as np
one_pol = stormpy.RationalRF(1)
one_pol = stormpy.FactorizedPolynomial(one_pol)
first_val = stormpy.FactorizedRationalFunction(one_pol, one_pol)
two_pol = stormpy.RationalRF(2)
two_pol = stormpy.FactorizedPolynomial(two_pol)
sec_val = stormpy.FactorizedRationalFunction(two_pol, two_pol)
third_val = stormpy.FactorizedRationalFunction(one_pol, two_pol)
array = np.array([[sec_val, first_val],
[first_val, sec_val],
[sec_val, sec_val],
[third_val, third_val]])
matrix = stormpy.build_parametric_sparse_matrix(array)
# Check matrix dimension
assert matrix.nr_rows == array.shape[0]
assert matrix.nr_columns == array.shape[1]
assert matrix.nr_entries == 8
# Check matrix values
for r in range(array.shape[1]):
row = matrix.get_row(r)
for e in row:
assert (e.value() == array[r, e.column])
@numpy_avail
def test_matrix_from_numpy_row_grouping(self):
import numpy as np
array = np.array([[0, 2],
[3, 4],
[0.1, 24],
[-0.3, -4]], dtype='float64')
matrix = stormpy.build_sparse_matrix(array, row_group_indices=[1, 3])
# Check matrix dimension
assert matrix.nr_rows == array.shape[0]
assert matrix.nr_columns == array.shape[1]
assert matrix.nr_entries == 8
# Check matrix values
for r in range(array.shape[1]):
row = matrix.get_row(r)
for e in row:
assert (e.value() == array[r, e.column])
# Check row groups
assert matrix.get_row_group_start(0) == 1
assert matrix.get_row_group_end(0) == 3
assert matrix.get_row_group_start(1) == 3
assert matrix.get_row_group_end(1) == 4
@numpy_avail
def test_parametric_matrix_from_numpy_row_grouping(self):
import numpy as np
one_pol = stormpy.RationalRF(1)
one_pol = stormpy.FactorizedPolynomial(one_pol)
first_val = stormpy.FactorizedRationalFunction(one_pol, one_pol)
two_pol = stormpy.RationalRF(2)
two_pol = stormpy.FactorizedPolynomial(two_pol)
sec_val = stormpy.FactorizedRationalFunction(two_pol, two_pol)
third_val = stormpy.FactorizedRationalFunction(one_pol, two_pol)
array = np.array([[sec_val, first_val],
[first_val, sec_val],
[sec_val, sec_val],
[third_val, third_val]])
matrix = stormpy.build_parametric_sparse_matrix(array, row_group_indices=[1, 3])
# Check matrix dimension
assert matrix.nr_rows == array.shape[0]
assert matrix.nr_columns == array.shape[1]
assert matrix.nr_entries == 8
# Check matrix values
for r in range(array.shape[1]):
row = matrix.get_row(r)
for e in row:
assert (e.value() == array[r, e.column])
# Check row groups
assert matrix.get_row_group_start(0) == 1
assert matrix.get_row_group_end(0) == 3
assert matrix.get_row_group_start(1) == 3
assert matrix.get_row_group_end(1) == 4