def step(context, n):
from dcprogs.likelihood import DeterminantEq
from dcprogs.likelihood.random import qmatrix as random_qmatrix
context.matrices = []
context.equations = []
while len(context.equations) < n:
try:
matrix = random_qmatrix()
equation = DeterminantEq(matrix, 1e-4)
except: continue
else:
context.matrices.append(matrix)
context.equations.append(equation)
def step(context, n):
from dcprogs.likelihood import DeterminantEq
from dcprogs.likelihood.random import qmatrix as random_qmatrix
context.matrices = []
context.equations = []
while len(context.equations) < n:
try:
matrix = random_qmatrix()
equation = DeterminantEq(matrix, 1e-4)
except:
continue
else:
context.matrices.append(matrix)
context.equations.append(equation)
def step(context, n, tau):
from dcprogs.likelihood.random import qmatrix as random_qmatrix
from dcprogs.likelihood import ApproxSurvivor
qmatrices, survivors, i = [], [], 10*n
while len(survivors) != n:
i -= 1
if i == 0: raise AssertionError('Could not instanciate enough survivor functions.')
qmatrix = random_qmatrix()
try: survivor = ApproxSurvivor(qmatrix, tau)
except: continue
else: survivors.append(survivor)
if not hasattr(context, 'qmatrices'): context.qmatrices = []
if not hasattr(context, 'survivors'): context.survivors = []
context.qmatrices.extend(qmatrices)
context.survivors.extend(survivors)
def step(context, n):
from dcprogs.likelihood.random import qmatrix as random_qmatrix
from dcprogs.likelihood import IdealG
qmatrices, Gs, i = [], [], 10*n
while len(Gs) != n:
i -= 1
if i == 0: raise AssertionError('Could not instanciate enough likelihoods.')
qmatrix = random_qmatrix()
try: G = IdealG(qmatrix)
except: continue
else:
Gs.append(G)
qmatrices.append(qmatrix)
if not hasattr(context, 'qmatrices'): context.qmatrices = []
if not hasattr(context, 'likelihoods'): context.likelihoods = []
context.qmatrices.extend(qmatrices)
context.likelihoods.extend(Gs)
def QMat(string):
""" Creates matrices from specific strings """
from dcprogs.likelihood.random import qmatrix as random_qmatrix
from dcprogs.likelihood import QMatrix
string = string.lower().rstrip().lstrip()
if 'transpose' in string:
return QMat(string.replace('transpose', '')).transpose()
if string == "classic" or string == "ch82": return QMatrix(Matrix(string), 2)
if string == "cb": return QMatrix(Matrix(string), 1)
if string == "cks": return QMatrix(Matrix(string), 1)
if string == "complex eigenvalues": return QMatrix(Matrix(string), 4)
if string == "singular matrix": return QMatrix(Matrix(string), 3)
if string == "random": return random_qmatrix()
if string == "too many roots": return QMatrix(Matrix(string), 3)
else: raise Exception("Unknown QMatrix {0}".format(string))
def QMat(string):
""" Creates matrices from specific strings """
from dcprogs.likelihood.random import qmatrix as random_qmatrix
from dcprogs.likelihood import QMatrix
string = string.lower().rstrip().lstrip()
if 'transpose' in string:
return QMat(string.replace('transpose', '')).transpose()
if string == "classic" or string == "ch82":
return QMatrix(Matrix(string), 2)
if string == "cb": return QMatrix(Matrix(string), 1)
if string == "cks": return QMatrix(Matrix(string), 1)
if string == "complex eigenvalues": return QMatrix(Matrix(string), 4)
if string == "singular matrix": return QMatrix(Matrix(string), 3)
if string == "random": return random_qmatrix()
if string == "too many roots": return QMatrix(Matrix(string), 3)
else: raise Exception("Unknown QMatrix {0}".format(string))
def step(context, n):
from dcprogs.likelihood.random import qmatrix as random_qmatrix
from dcprogs.likelihood import IdealG
qmatrices, Gs, i = [], [], 10 * n
while len(Gs) != n:
i -= 1
if i == 0:
raise AssertionError('Could not instanciate enough likelihoods.')
qmatrix = random_qmatrix()
try:
G = IdealG(qmatrix)
except:
continue
else:
Gs.append(G)
qmatrices.append(qmatrix)
if not hasattr(context, 'qmatrices'): context.qmatrices = []
if not hasattr(context, 'likelihoods'): context.likelihoods = []
context.qmatrices.extend(qmatrices)
context.likelihoods.extend(Gs)
def step(context, n, tau):
from dcprogs.likelihood.random import qmatrix as random_qmatrix
from dcprogs.likelihood import ApproxSurvivor
qmatrices, survivors, i = [], [], 10 * n
while len(survivors) != n:
i -= 1
if i == 0:
raise AssertionError(
'Could not instanciate enough survivor functions.')
qmatrix = random_qmatrix()
try:
survivor = ApproxSurvivor(qmatrix, tau)
except:
continue
else:
survivors.append(survivor)
if not hasattr(context, 'qmatrices'): context.qmatrices = []
if not hasattr(context, 'survivors'): context.survivors = []
context.qmatrices.extend(qmatrices)
context.survivors.extend(survivors)
def step(context, n): from dcprogs.likelihood.random import qmatrix as random_qmatrix context.qmatrices = [random_qmatrix() for u in range(n)]
