/usr/lib/python3/dist-packages/liblinear.py is in python3-liblinear 2.1.0+dfsg-2.
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from ctypes import *
from ctypes.util import find_library
from os import path
import sys
__all__ = ['liblinear', 'feature_node', 'gen_feature_nodearray', 'problem',
'parameter', 'model', 'toPyModel', 'L2R_LR', 'L2R_L2LOSS_SVC_DUAL',
'L2R_L2LOSS_SVC', 'L2R_L1LOSS_SVC_DUAL', 'MCSVM_CS',
'L1R_L2LOSS_SVC', 'L1R_LR', 'L2R_LR_DUAL', 'L2R_L2LOSS_SVR',
'L2R_L2LOSS_SVR_DUAL', 'L2R_L1LOSS_SVR_DUAL', 'print_null']
try:
dirname = path.dirname(path.abspath(__file__))
if sys.platform == 'win32':
liblinear = CDLL(path.join(dirname, r'..\windows\liblinear.dll'))
else:
liblinear = CDLL(path.join(dirname, '../liblinear.so.3'))
except:
# For unix the prefix 'lib' is not considered.
if find_library('linear'):
liblinear = CDLL(find_library('linear'))
elif find_library('liblinear'):
liblinear = CDLL(find_library('liblinear'))
else:
raise Exception('LIBLINEAR library not found.')
L2R_LR = 0
L2R_L2LOSS_SVC_DUAL = 1
L2R_L2LOSS_SVC = 2
L2R_L1LOSS_SVC_DUAL = 3
MCSVM_CS = 4
L1R_L2LOSS_SVC = 5
L1R_LR = 6
L2R_LR_DUAL = 7
L2R_L2LOSS_SVR = 11
L2R_L2LOSS_SVR_DUAL = 12
L2R_L1LOSS_SVR_DUAL = 13
PRINT_STRING_FUN = CFUNCTYPE(None, c_char_p)
def print_null(s):
return
def genFields(names, types):
return list(zip(names, types))
def fillprototype(f, restype, argtypes):
f.restype = restype
f.argtypes = argtypes
class feature_node(Structure):
_names = ["index", "value"]
_types = [c_int, c_double]
_fields_ = genFields(_names, _types)
def __str__(self):
return '%d:%g' % (self.index, self.value)
def gen_feature_nodearray(xi, feature_max=None, issparse=True):
if isinstance(xi, dict):
index_range = xi.keys()
elif isinstance(xi, (list, tuple)):
xi = [0] + xi # idx should start from 1
index_range = range(1, len(xi))
else:
raise TypeError('xi should be a dictionary, list or tuple')
if feature_max:
assert(isinstance(feature_max, int))
index_range = filter(lambda j: j <= feature_max, index_range)
if issparse:
index_range = filter(lambda j:xi[j] != 0, index_range)
index_range = sorted(index_range)
ret = (feature_node * (len(index_range)+2))()
ret[-1].index = -1 # for bias term
ret[-2].index = -1
for idx, j in enumerate(index_range):
ret[idx].index = j
ret[idx].value = xi[j]
max_idx = 0
if index_range :
max_idx = index_range[-1]
return ret, max_idx
class problem(Structure):
_names = ["l", "n", "y", "x", "bias"]
_types = [c_int, c_int, POINTER(c_double), POINTER(POINTER(feature_node)), c_double]
_fields_ = genFields(_names, _types)
def __init__(self, y, x, bias = -1):
if len(y) != len(x) :
raise ValueError("len(y) != len(x)")
self.l = l = len(y)
self.bias = -1
max_idx = 0
x_space = self.x_space = []
for i, xi in enumerate(x):
tmp_xi, tmp_idx = gen_feature_nodearray(xi)
x_space += [tmp_xi]
max_idx = max(max_idx, tmp_idx)
self.n = max_idx
self.y = (c_double * l)()
for i, yi in enumerate(y): self.y[i] = y[i]
self.x = (POINTER(feature_node) * l)()
for i, xi in enumerate(self.x_space): self.x[i] = xi
self.set_bias(bias)
def set_bias(self, bias):
if self.bias == bias:
return
if bias >= 0 and self.bias < 0:
self.n += 1
node = feature_node(self.n, bias)
if bias < 0 and self.bias >= 0:
self.n -= 1
node = feature_node(-1, bias)
for xi in self.x_space:
xi[-2] = node
self.bias = bias
class parameter(Structure):
_names = ["solver_type", "eps", "C", "nr_weight", "weight_label", "weight", "p", "init_sol"]
_types = [c_int, c_double, c_double, c_int, POINTER(c_int), POINTER(c_double), c_double, POINTER(c_double)]
_fields_ = genFields(_names, _types)
def __init__(self, options = None):
if options == None:
options = ''
self.parse_options(options)
def __str__(self):
s = ''
attrs = parameter._names + list(self.__dict__.keys())
values = map(lambda attr: getattr(self, attr), attrs)
for attr, val in zip(attrs, values):
s += (' %s: %s\n' % (attr, val))
s = s.strip()
return s
def set_to_default_values(self):
self.solver_type = L2R_L2LOSS_SVC_DUAL
self.eps = float('inf')
self.C = 1
self.p = 0.1
self.nr_weight = 0
self.weight_label = None
self.weight = None
self.init_sol = None
self.bias = -1
self.flag_cross_validation = False
self.flag_C_specified = False
self.flag_solver_specified = False
self.flag_find_C = False
self.nr_fold = 0
self.print_func = cast(None, PRINT_STRING_FUN)
def parse_options(self, options):
if isinstance(options, list):
argv = options
elif isinstance(options, str):
argv = options.split()
else:
raise TypeError("arg 1 should be a list or a str.")
self.set_to_default_values()
self.print_func = cast(None, PRINT_STRING_FUN)
weight_label = []
weight = []
i = 0
while i < len(argv) :
if argv[i] == "-s":
i = i + 1
self.solver_type = int(argv[i])
self.flag_solver_specified = True
elif argv[i] == "-c":
i = i + 1
self.C = float(argv[i])
self.flag_C_specified = True
elif argv[i] == "-p":
i = i + 1
self.p = float(argv[i])
elif argv[i] == "-e":
i = i + 1
self.eps = float(argv[i])
elif argv[i] == "-B":
i = i + 1
self.bias = float(argv[i])
elif argv[i] == "-v":
i = i + 1
self.flag_cross_validation = 1
self.nr_fold = int(argv[i])
if self.nr_fold < 2 :
raise ValueError("n-fold cross validation: n must >= 2")
elif argv[i].startswith("-w"):
i = i + 1
self.nr_weight += 1
weight_label += [int(argv[i-1][2:])]
weight += [float(argv[i])]
elif argv[i] == "-q":
self.print_func = PRINT_STRING_FUN(print_null)
elif argv[i] == "-C":
self.flag_find_C = True
else :
raise ValueError("Wrong options")
i += 1
liblinear.set_print_string_function(self.print_func)
self.weight_label = (c_int*self.nr_weight)()
self.weight = (c_double*self.nr_weight)()
for i in range(self.nr_weight):
self.weight[i] = weight[i]
self.weight_label[i] = weight_label[i]
# default solver for parameter selection is L2R_L2LOSS_SVC
if self.flag_find_C:
if not self.flag_cross_validation:
self.nr_fold = 5
if not self.flag_solver_specified:
self.solver_type = L2R_L2LOSS_SVC
self.flag_solver_specified = True
elif self.solver_type not in [L2R_LR, L2R_L2LOSS_SVC]:
raise ValueError("Warm-start parameter search only available for -s 0 and -s 2")
if self.eps == float('inf'):
if self.solver_type in [L2R_LR, L2R_L2LOSS_SVC]:
self.eps = 0.01
elif self.solver_type in [L2R_L2LOSS_SVR]:
self.eps = 0.001
elif self.solver_type in [L2R_L2LOSS_SVC_DUAL, L2R_L1LOSS_SVC_DUAL, MCSVM_CS, L2R_LR_DUAL]:
self.eps = 0.1
elif self.solver_type in [L1R_L2LOSS_SVC, L1R_LR]:
self.eps = 0.01
elif self.solver_type in [L2R_L2LOSS_SVR_DUAL, L2R_L1LOSS_SVR_DUAL]:
self.eps = 0.1
class model(Structure):
_names = ["param", "nr_class", "nr_feature", "w", "label", "bias"]
_types = [parameter, c_int, c_int, POINTER(c_double), POINTER(c_int), c_double]
_fields_ = genFields(_names, _types)
def __init__(self):
self.__createfrom__ = 'python'
def __del__(self):
# free memory created by C to avoid memory leak
if hasattr(self, '__createfrom__') and self.__createfrom__ == 'C':
liblinear.free_and_destroy_model(pointer(self))
def get_nr_feature(self):
return liblinear.get_nr_feature(self)
def get_nr_class(self):
return liblinear.get_nr_class(self)
def get_labels(self):
nr_class = self.get_nr_class()
labels = (c_int * nr_class)()
liblinear.get_labels(self, labels)
return labels[:nr_class]
def get_decfun_coef(self, feat_idx, label_idx=0):
return liblinear.get_decfun_coef(self, feat_idx, label_idx)
def get_decfun_bias(self, label_idx=0):
return liblinear.get_decfun_bias(self, label_idx)
def get_decfun(self, label_idx=0):
w = [liblinear.get_decfun_coef(self, feat_idx, label_idx) for feat_idx in range(1, self.nr_feature+1)]
b = liblinear.get_decfun_bias(self, label_idx)
return (w, b)
def is_probability_model(self):
return (liblinear.check_probability_model(self) == 1)
def is_regression_model(self):
return (liblinear.check_regression_model(self) == 1)
def toPyModel(model_ptr):
"""
toPyModel(model_ptr) -> model
Convert a ctypes POINTER(model) to a Python model
"""
if bool(model_ptr) == False:
raise ValueError("Null pointer")
m = model_ptr.contents
m.__createfrom__ = 'C'
return m
fillprototype(liblinear.train, POINTER(model), [POINTER(problem), POINTER(parameter)])
fillprototype(liblinear.find_parameter_C, None, [POINTER(problem), POINTER(parameter), c_int, c_double, c_double, POINTER(c_double), POINTER(c_double)])
fillprototype(liblinear.cross_validation, None, [POINTER(problem), POINTER(parameter), c_int, POINTER(c_double)])
fillprototype(liblinear.predict_values, c_double, [POINTER(model), POINTER(feature_node), POINTER(c_double)])
fillprototype(liblinear.predict, c_double, [POINTER(model), POINTER(feature_node)])
fillprototype(liblinear.predict_probability, c_double, [POINTER(model), POINTER(feature_node), POINTER(c_double)])
fillprototype(liblinear.save_model, c_int, [c_char_p, POINTER(model)])
fillprototype(liblinear.load_model, POINTER(model), [c_char_p])
fillprototype(liblinear.get_nr_feature, c_int, [POINTER(model)])
fillprototype(liblinear.get_nr_class, c_int, [POINTER(model)])
fillprototype(liblinear.get_labels, None, [POINTER(model), POINTER(c_int)])
fillprototype(liblinear.get_decfun_coef, c_double, [POINTER(model), c_int, c_int])
fillprototype(liblinear.get_decfun_bias, c_double, [POINTER(model), c_int])
fillprototype(liblinear.free_model_content, None, [POINTER(model)])
fillprototype(liblinear.free_and_destroy_model, None, [POINTER(POINTER(model))])
fillprototype(liblinear.destroy_param, None, [POINTER(parameter)])
fillprototype(liblinear.check_parameter, c_char_p, [POINTER(problem), POINTER(parameter)])
fillprototype(liblinear.check_probability_model, c_int, [POINTER(model)])
fillprototype(liblinear.check_regression_model, c_int, [POINTER(model)])
fillprototype(liblinear.set_print_string_function, None, [CFUNCTYPE(None, c_char_p)])
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