Projects/laydi
Projects
/
laydi
Archived
7
0
Fork 0
This repository has been archived on 2024-07-04. You can view files and clone it, but cannot push or open issues or pull requests.
laydi/fluents/lib/blmfuncs.py

1383 lines
50 KiB
Python
Raw Normal View History

2006-12-18 12:59:12 +01:00
"""This module contains bilinear models(Functions)
"""
2007-01-31 13:03:11 +01:00
import os
2007-02-09 15:02:58 +01:00
import copy
2007-01-25 12:58:10 +01:00
import pygtk
2007-01-04 14:53:47 +01:00
import gtk
2007-01-25 12:58:10 +01:00
import gtk.glade
from fluents import fluents
2007-01-04 14:53:47 +01:00
from fluents.workflow import Function, OptionsDialog, Options
2006-12-18 12:59:12 +01:00
from fluents.dataset import Dataset
from fluents import plots, dataset, workflow, logger
import scipy
2007-07-23 19:33:21 +02:00
from engines import pca, pls, nipals_lpls
2006-12-18 12:59:12 +01:00
from cx_stats import leverage, variances, hotelling
from cx_utils import mat_center
from validation import *
2007-02-09 15:02:58 +01:00
from packer import Packer
2006-12-18 12:59:12 +01:00
import blmplots
2007-02-09 15:02:58 +01:00
2006-12-18 12:59:12 +01:00
2007-08-24 13:48:29 +02:00
class NewStyleModel:
2007-08-24 11:14:24 +02:00
def __init__(self, id='johndoe', name='JohnDoe'):
2007-08-24 13:48:29 +02:00
self.id = id
self.name = name
2007-08-24 11:14:24 +02:00
self.name = name
self.options = Options
self.input_data = []
self.parts = {}
self.io_table = {}
self.datasets = []
self.plots = []
def create_dataset(self, param, Dataset=Dataset):
for ds in self.datasets:
if ds.get_name()==param: return ds
if not param in self.parts.keys():
logger.log('notice', 'Parameter: %s not present' %param)
return
if not param in self.io_table.keys():
logger.log('notice', 'Parameter: %s not in defined in io table' %param)
identifiers = self.io_table.get(param)
data = self.parts.get(param)
ds = Dataset(data, identifiers=identifiers, name=param)
self.datasets.append(dataset)
return ds
def create_plot(self, blmplot):
if blmplot.validate_model(self.parts):
plt = blmplot(self.parts)
self.plots.append(plt)
return plt
2007-08-24 13:48:29 +02:00
def save(self, stype=None):
pass
def load(self):
pass
2007-08-24 11:14:24 +02:00
2006-12-18 12:59:12 +01:00
class Model(Function):
"""Base class of bilinear models.
"""
2007-03-14 17:30:18 +01:00
def __init__(self, id='johndoe', name='JohnDoe'):
Function.__init__(self, id, name)
2006-12-18 12:59:12 +01:00
self.name = name
self._options = None
self._data = {}
self._dataset = {}
self._packers = {}
self.model = {}
def clear(self):
""" Clears model paramters
"""
self.model = {}
self._data = {}
self._packers = {}
class PCA(Model):
2007-03-14 17:30:18 +01:00
def __init__(self, id='pca', name='PCA'):
Model.__init__(self, id, name)
2006-12-18 12:59:12 +01:00
self._options = PcaOptions()
2007-01-04 14:53:47 +01:00
2007-01-25 12:58:10 +01:00
def validation(self, amax, cv_val_sets, pert_val_sets, cv_val_method, pert_val_method):
"""Model validation and estimate of optimal numer of components.
2006-12-18 12:59:12 +01:00
"""
2007-01-25 12:58:10 +01:00
if self._options['calc_cv']:
if cv_val_method == 'random':
sep, aopt = pca_cv_val(self.model['E0'], amax, cv_val_sets)
self.model['sep'] = sep
if self._options['calc_pert']:
if pert_val_method == 'random_diag':
sep, aopt = pca_alter_val(self.model['E0'], amax, pert_val_sets)
self.model['sep'] = sep
if self._options['calc_cv']==False and self._options['calc_pert']==False:
self.model['sep'] = None
aopt = self._options['amax']
if self._options['auto_aopt']:
logger.log("notice", "Auto aopt: " + str(aopt))
self._options['aopt'] = aopt
2007-03-14 17:30:18 +01:00
2007-01-25 12:58:10 +01:00
if aopt==1:
logger.log('notice', 'Aopt at first component!')
2006-12-18 12:59:12 +01:00
def confidence(self, aopt, n_sets, alpha, p_center,
2007-08-24 11:14:24 +02:00
crot, strict, cov_center):
2006-12-18 12:59:12 +01:00
"""Returns a confidence measure for model parameters.
Based on aopt.
2007-03-14 17:30:18 +01:00
Added model parts: p_tsq
2006-12-18 12:59:12 +01:00
"""
2007-01-25 12:58:10 +01:00
if aopt<2:
aopt = 2
logger.log('notice','Hotellings T2 needs more than 1 comp.\n switching to 2!!')
2006-12-18 12:59:12 +01:00
jk_segments = pca_jkP(self.model['E0'], aopt, n_sets)
Pcal = self.model['P'][:,:aopt]
2007-08-24 11:14:24 +02:00
# ensure scaled P
2007-01-31 14:00:36 +01:00
tnorm = scipy.apply_along_axis(norm, 0, self.model['T'][:,:aopt])
2007-01-31 13:03:11 +01:00
Pcal = Pcal*tnorm
2006-12-18 12:59:12 +01:00
tsq = hotelling(jk_segments, Pcal, p_center,
2007-01-25 12:58:10 +01:00
cov_center, alpha, crot, strict)
2006-12-18 12:59:12 +01:00
self.model['p_tsq'] = tsq
def make_model(self, amax, mode, scale):
"""Model on optimal number of components.
"""
2007-08-24 11:14:24 +02:00
dat = pca(self.model['E0'], amax, scale, mode)
2006-12-18 12:59:12 +01:00
self.model.update(dat)
def as_dataset(self, param, dtype='dataset'):
"""Return model parameter as Dataset.
"""
if not param in self.model.keys():
2007-08-24 11:14:24 +02:00
logger.log('notice', 'Parameter: %s not in model' %param)
2006-12-18 12:59:12 +01:00
return
DX = self._dataset['X'] #input dataset
dim_name_0, dim_name_1 = DX.get_dim_name()
# samples
ids_0 = [dim_name_0, DX.get_identifiers(dim_name_0, sorted=True)]
# vars
ids_1 = [dim_name_1, DX.get_identifiers(dim_name_1, sorted=True)]
# components (hidden)
2007-01-25 12:58:10 +01:00
pc_ids = ['_amax', map(str,range(self._options['amax'])) ]
pc_ids_opt = ['_aopt', map(str, range(self._options['aopt'])) ]
2006-12-18 12:59:12 +01:00
zero_dim = ['_doe', ['0']] # null dim, vector (hidden)
2007-08-24 11:14:24 +02:00
match_ids = {'E' : [ids_0, ids_1],
'E0' : [ids_0, ids_1],
'P' : [ids_1, pc_ids],
'T' : [ids_0, pc_ids],
'W' : [ids_1, pc_ids],
'p_tsq' : [ids_1, zero_dim],
'rmsep' : [pc_ids, zero_dim],
'var_leverages' : [ids_1, zero_dim],
'sample_leverages' : [pc_ids, zero_dim],
'exp_var_x' : [pc_ids, zero_dim],
'var_x' : [pc_ids, zero_dim],
'eigvals' : [pc_ids, zero_dim]
2006-12-18 12:59:12 +01:00
}
out = Dataset(self.model[param], match_ids[param], name=param)
return out
def get_out_plots(self, options):
out=[]
for plt in options['out_plots']:
#try:
out.append(plt(self))
#except:
2007-01-25 12:58:10 +01:00
# logger.log('debug', 'Plot: %s failed') %str(plt)
2006-12-18 12:59:12 +01:00
return out
2007-01-04 14:53:47 +01:00
def run_o(self, data):
2006-12-18 12:59:12 +01:00
"""Run pca with present options.
"""
self.clear()
options = self._options
self._dataset['X'] = data
self._data['X'] = data.asarray().astype('<f8')
if options['center']:
center = options['center_mth']
self.model['E0'] = center(self._data['X'])
else:
self.model['E0'] = data.asarray()
2007-01-25 12:58:10 +01:00
self.validation(**options.validation_options())
self.model['aopt'] = self._options['aopt']
2006-12-18 12:59:12 +01:00
self.make_model(**options.make_model_options())
if options['calc_conf']:
self.confidence(**options.confidence_options())
2007-08-07 13:39:16 +02:00
2006-12-18 12:59:12 +01:00
out = [self.as_dataset(p) for p in options['out_data']]
for plt in self.get_out_plots(options):
out.append(plt)
return out
2007-01-04 14:53:47 +01:00
def run(self, data):
"""Run Pca with option gui.
"""
dialog = PcaOptionsDialog([data], self._options)
dialog.show_all()
response = dialog.run()
dialog.hide()
2006-12-18 12:59:12 +01:00
2007-01-04 14:53:47 +01:00
if response == gtk.RESPONSE_OK:
# set output data and plots
dialog.set_output()
#run with current data and options
return self.run_o(data)
2006-12-18 12:59:12 +01:00
class PLS(Model):
def __init__(self, id='pls', name='PLS'):
Model.__init__(self, id, name)
self._options = PlsOptions()
2007-07-28 18:05:11 +02:00
def validation(self):
2007-02-09 15:02:58 +01:00
"""Returns rmsep for pls model.
2006-12-18 12:59:12 +01:00
"""
2007-01-31 13:03:11 +01:00
m, n = self.model['E0'].shape
if m>n:
val_engine = w_pls_cv_val
else:
val_engine = pls_val
if self._options['calc_cv']==True:
2007-08-07 13:39:16 +02:00
print "Doing RMSEP calc ..."
2007-01-31 13:03:11 +01:00
rmsep, aopt = val_engine(self.model['E0'], self.model['F0'],
2007-07-28 18:05:11 +02:00
self._options['amax'], self._options['n_sets'])
2007-01-31 13:03:11 +01:00
self.model['rmsep'] = rmsep[:,:-1]
self.model['aopt'] = aopt
else:
self.model['rmsep'] = None
self.model['aopt'] = self._options['aopt']
2006-12-18 12:59:12 +01:00
def confidence(self, aopt, n_sets, alpha, p_center,
crot, strict, cov_center ):
"""Returns a confidence measure for model parameters
Supported parameters: W
"""
aopt = self.model['aopt']
2007-01-31 13:03:11 +01:00
if self._options['calc_conf']:
2007-08-07 13:39:16 +02:00
print "Doing Tsq"
2007-01-31 13:03:11 +01:00
jk_segments = pls_jkW(self.model['E0'], self.model['F0'],
aopt, n_sets)
Wcal = self.model['W'][:,:aopt]
# ensure that Wcal is scaled
tnorm = scipy.apply_along_axis(norm, 0, self.model['T'][:,:aopt])
Wcal = Wcal*tnorm
tsq = hotelling(jk_segments, Wcal, p_center,
alpha, crot, strict, cov_center)
self.model['w_tsq'] = tsq
else:
self.model['w_tsq'] = None
2006-12-18 12:59:12 +01:00
2007-02-09 15:02:58 +01:00
def permutation_confidence(self, a, b, aopt, reg,
n_iter, algo, sim_method):
2007-01-31 13:03:11 +01:00
"""Estimates cut off on significant vars by controlling fdr."""
if self._options['calc_qvals']==True:
2007-08-07 13:39:16 +02:00
print "Doing Qvals"
2007-07-23 19:33:21 +02:00
qvals = pls_qvals(a, b,
aopt=None,
alpha=reg,
n_iter=n_iter,
algo='pls',
sim_method=sim_method)
2007-01-31 13:03:11 +01:00
self.model['qval'] = qvals
2007-07-23 19:33:21 +02:00
#self.model['qval_sorted'] = qvals_sorted
2007-01-31 13:03:11 +01:00
else:
self.model['qval'] = None
self.model['qval_sorted'] = None
2006-12-18 12:59:12 +01:00
def make_model(self, a, b, amax, scale, mode, engine):
"""Make model on amax components.
"""
2007-08-24 11:14:24 +02:00
print "Making model"
2006-12-18 12:59:12 +01:00
dat = engine(a, b, amax, scale, mode)
self.model.update(dat)
def as_dataset(self, name, dtype='Dataset'):
"""Return any model parameter as Dataset
No ids matching
"""
if name not in self.model.keys():
return
DX, DY = self._dataset['X'], self._dataset['Y']
dim_name_0, dim_name_1 = DX.get_dim_name()
dim_name_2, dim_name_3 = DY.get_dim_name()
#samples
ids_0 = [dim_name_0, DX.get_identifiers(dim_name_0, sorted=True)]
# x vars
ids_1 = [dim_name_1, DX.get_identifiers(dim_name_1, sorted=True)]
# y vars
ids_3 = [dim_name_3, DY.get_identifiers(dim_name_3, sorted=True)]
# components (hidden)
2007-01-31 13:03:11 +01:00
pc_ids = ['_comp', map(str, range(self._options['amax']))]
pc_ids_opt = ['_comp', map(str, range(self.model['aopt']))]
2006-12-18 12:59:12 +01:00
zero_dim = ['_doe',['0']] # null dim, vector (hidden)
2007-07-23 19:33:21 +02:00
match_ids = {'E' : [ids_0, ids_1],
'P' : [ids_1, pc_ids],
'T' : [ids_0, pc_ids],
'W' : [ids_1, pc_ids],
'R' : [ids_1, pc_ids],
'Q' : [ids_3, pc_ids],
'F' : [ids_0, ids_3],
'B' : [ids_1, ids_3],
'qval' : [ids_1, zero_dim],
2006-12-18 12:59:12 +01:00
'qval_sorted':[ids_1, zero_dim],
2007-07-23 19:33:21 +02:00
'w_tsq' : [ids_1, zero_dim],
'rmsep' : [ids_3, pc_ids],
'CP': [ids_1, pc_ids]
2006-12-18 12:59:12 +01:00
}
array = self.model[name]
2007-01-31 13:03:11 +01:00
M = Dataset(array, identifiers=match_ids[name], name=name)
2006-12-18 12:59:12 +01:00
return M
def get_out_plots(self, options):
out=[]
for plt in options['out_plots']:
#try:
out.append(plt(self))
#except:
# logger.log('debug', 'Plot: %s failed' %plt)
return out
2007-07-23 19:33:21 +02:00
2007-01-04 14:53:47 +01:00
def run_o(self, a, b):
2007-01-31 13:03:11 +01:00
"""Run PLS with present options."""
2006-12-18 12:59:12 +01:00
options = self._options
self._dataset['X'] = a
self._dataset['Y'] = b
self._data['X'] = a.asarray()
self._data['Y'] = b.asarray()
2007-01-31 13:03:11 +01:00
2006-12-18 12:59:12 +01:00
if options['center']:
self.model['E0'] = options['center_mth'](self._data['X'])
self.model['F0'] = options['center_mth'](self._data['Y'])
else:
self.model['E0'] = self._data['X']
self.model['F0'] = self._data['Y']
2007-01-31 13:03:11 +01:00
2007-07-28 18:05:11 +02:00
self.validation()
2006-12-18 12:59:12 +01:00
self.make_model(self.model['E0'], self.model['F0'],
**options.make_model_options())
# variance captured
var_x, exp_var_x = variances(self.model['E0'], self.model['T'], self.model['P'])
2007-08-14 18:12:28 +02:00
self.model['evx'] = var_x
2006-12-18 12:59:12 +01:00
self.model['exp_var_x'] = exp_var_x
var_y, exp_var_y = variances(self.model['F0'], self.model['T'], self.model['Q'])
2007-08-14 18:12:28 +02:00
self.model['evy'] = var_y
2006-12-18 12:59:12 +01:00
self.model['exp_var_y'] = exp_var_y
2007-08-07 13:39:16 +02:00
2006-12-18 12:59:12 +01:00
if options['calc_conf']:
self.confidence(**options.confidence_options())
out = [self.as_dataset(p) for p in options['out_data']]
for plt in self.get_out_plots(options):
out.append(plt)
return out
2007-01-04 14:53:47 +01:00
def run(self, a, b):
2007-01-31 13:03:11 +01:00
"""Run PLS with option gui.
2007-01-04 14:53:47 +01:00
"""
dialog = PlsOptionsDialog([a, b], self._options)
dialog.show_all()
response = dialog.run()
dialog.hide()
if response == gtk.RESPONSE_OK:
# set output data and plots
dialog.set_output()
2007-01-31 13:03:11 +01:00
#run with current data and options
2007-01-04 14:53:47 +01:00
return self.run_o(a, b)
2006-12-18 12:59:12 +01:00
2007-07-23 19:33:21 +02:00
class LPLS(Model):
def __init__(self, id='lpls', name='LPLS'):
Model.__init__(self, id, name)
self._options = LplsOptions()
def validation(self, opt):
"""Returns rmsep for lpls model.
"""
if opt['calc_cv']==True:
val_engine = opt['val_engine']
rmsep, aopt = val_engine(self.model['X'], self.model['Y'],
self.model['Z'], opt['amax'], opt['n_sets'], opt['xz_alpha'])
self.model['rmsep'] = rmsep
self.model['aopt'] = aopt
else:
self.model['rmsep'] = None
self.model['aopt'] = opt['aopt']
def confidence(self, opt):
"""Returns a confidence measure for model parameters
Supported parameters: W
"""
aopt = self.model['aopt']
if opt['calc_conf']:
2007-07-23 20:07:10 +02:00
Wx, Wz = lpls_jk(self._data['X'], self._data['Y'], self._data['Z'], aopt, opt['n_sets'], opt['xz_alpha'])
2007-07-23 19:33:21 +02:00
Wcal = self.model['W'][:,:aopt]
Lcal = self.model['L'][:,:aopt]
# ensure that Wcal is scaled
tnorm = scipy.apply_along_axis(norm, 0, self.model['T'][:,:aopt])
Wcal = Wcal*tnorm
a,b,c,d,e = opt['p_center'], opt['crot'], opt['alpha'], opt['strict'], opt['cov_center']
tsqx = hotelling(Wx, Wcal, a,b,c,d,e)
tsqz = hotelling(Wz, Lcal, a,b,c,d,e)
self.model['tsqx'] = tsqx
self.model['tsqz'] = tsqz
else:
self.model['tsqx'] = None
self.model['tsqz'] = None
def permutation_confidence(self, opt):
"""Estimates cut off on significant vars by controlling fdr.
"""
self.model['qval'] = None
self.model['qval_sorted'] = None
def make_model(self, opt):
"""Make model on amax components.
"""
engine = opt['engine']
dat = engine(self._data['X'], self._data['Y'], self._data['Z'],
opt['amax'], opt['xz_alpha'], opt['center_mth'],
opt['mode'], opt['scale'], False)
self.model.update(dat)
def as_dataset(self, name, dtype='Dataset'):
"""Return any model parameter as Dataset
No ids matching
"""
if name not in self.model.keys():
2007-07-26 20:32:27 +02:00
raise ValueError("There is no key named: %s in model" %name)
2007-07-23 19:33:21 +02:00
DX, DY, DZ = self._dataset['X'], self._dataset['Y'], self._dataset['Z']
dim_name_0, dim_name_1 = DX.get_dim_name()
dim_name_2, dim_name_3 = DY.get_dim_name()
dim_name_4, dim_name_5 = DZ.get_dim_name()
#samples
ids_0 = [dim_name_0, DX.get_identifiers(dim_name_0, sorted=True)]
# x vars (genes)
ids_1 = [dim_name_1, DX.get_identifiers(dim_name_1, sorted=True)]
# y vars (sample descriptors)
ids_3 = [dim_name_3, DY.get_identifiers(dim_name_3, sorted=True)]
#z-vars (variable descriptors)
ids_4 = [dim_name_4, DZ.get_identifiers(dim_name_4, sorted=True)]
# components (hidden)
pc_ids = ['_comp', map(str, range(self._options['amax']))]
pc_ids_opt = ['_comp', map(str, range(self.model['aopt']))]
zero_dim = ['_doe',['0']] # null dim, vector (hidden)
match_ids = {'E' : [ids_0, ids_1],
'P' : [ids_1, pc_ids],
'T' : [ids_0, pc_ids],
'W' : [ids_1, pc_ids],
'L' : [ids_4, pc_ids],
'Q' : [ids_3, pc_ids],
'F' : [ids_0, ids_3],
'B' : [ids_1, ids_3],
'tsqx' : [ids_1, zero_dim],
'tsqz' : [ids_4, zero_dim],
'K' : [ids_1, pc_ids],
2007-07-26 20:32:27 +02:00
'rmsep' : [ids_3, pc_ids],
'Rx' : [ids_1, pc_ids],
'Rz' : [ids_4, pc_ids]
2007-07-23 19:33:21 +02:00
}
2007-07-26 20:32:27 +02:00
try:
array = self.model[name]
ids = match_ids[name]
except:
raise ValueError("There are no identifers stored for: %s in model" %name)
M = Dataset(array, identifiers=ids, name=name)
2007-07-23 19:33:21 +02:00
return M
def get_out_plots(self, options):
out=[]
for plt in options['out_plots']:
out.append(plt(self))
return out
def run(self, a, b, c):
"""Run L-PLS with present options."""
options = self._options
self._dataset['X'] = a
self._dataset['Y'] = b
self._dataset['Z'] = c
self._data['X'] = a.asarray()
self._data['Y'] = b.asarray()
self._data['Z'] = c.asarray()
self.validation(options)
self.make_model(options)
2007-08-14 18:12:28 +02:00
2007-07-23 19:33:21 +02:00
if options['calc_conf']:
self.confidence(options)
out = [self.as_dataset(p) for p in options['out_data']]
for plt in self.get_out_plots(options):
out.append(plt)
return out
def run_gui(self, a, b, c):
"""Run LPLS with option gui.
"""
dialog = LPlsOptionsDialog([a, b, c], self._options)
dialog.show_all()
response = dialog.run()
dialog.hide()
if response == gtk.RESPONSE_OK:
# set output data and plots
dialog.set_output()
#run with current data and options
return self.run(a, b, c)
2006-12-18 12:59:12 +01:00
class PcaOptions(Options):
"""Options for Principal Component Analysis.
"""
def __init__(self):
Options.__init__(self)
self._set_default()
def _set_default(self):
opt = {}
opt['algo'] = 'pca'
2007-02-09 15:02:58 +01:00
opt['engine'] = pca
2006-12-18 12:59:12 +01:00
opt['mode'] = 'normal' # how much info to calculate
2007-01-25 12:58:10 +01:00
opt['amax'] = 10
2007-08-02 13:18:18 +02:00
opt['aopt'] = 5
2007-01-25 12:58:10 +01:00
opt['auto_aopt'] = False
2006-12-18 12:59:12 +01:00
opt['center'] = True
opt['center_mth'] = mat_center
opt['scale'] = 'scores'
2007-01-25 12:58:10 +01:00
opt['calc_conf'] = False
2007-08-02 13:18:18 +02:00
opt['n_sets'] = 7
2006-12-18 12:59:12 +01:00
opt['strict'] = True
opt['p_center'] = 'med'
2007-08-02 13:18:18 +02:00
opt['alpha'] = .2
2006-12-18 12:59:12 +01:00
opt['cov_center'] = 'med'
opt['crot'] = True
2007-01-25 12:58:10 +01:00
opt['calc_cv'] = False
2007-08-02 13:18:18 +02:00
opt['calc_pert'] = False
2007-01-25 12:58:10 +01:00
opt['pert_val_method'] = 'random_diag'
opt['cv_val_method'] = 'random'
opt['cv_val_sets'] = 10
opt['pert_val_sets'] = 10
2006-12-18 12:59:12 +01:00
2007-01-04 14:53:47 +01:00
opt['all_data'] = [('T', 'scores', True),
('P', 'loadings', True),
('E','residuals', False),
('p_tsq', 't2', False),
2007-01-25 12:58:10 +01:00
('rmsep', 'RMSEP', False)
2007-01-04 14:53:47 +01:00
]
2007-01-31 13:03:11 +01:00
# (class, name, sensitive, ticked)
2007-01-04 14:53:47 +01:00
opt['all_plots'] = [(blmplots.PcaScorePlot, 'Scores', True),
(blmplots.PcaLoadingPlot, 'Loadings', True),
2007-01-25 12:58:10 +01:00
(blmplots.LineViewXc, 'Line view', True),
2007-08-24 11:14:24 +02:00
(blmplots.PredictionErrorPlot, 'Residual Error', False),
(blmplots.PcaScreePlot, 'Scree', True)
2007-01-04 14:53:47 +01:00
]
2006-12-18 12:59:12 +01:00
opt['out_data'] = ['T','P', 'p_tsq']
2007-07-23 19:33:21 +02:00
opt['out_plots'] = [blmplots.PcaScorePlot,
blmplots.PcaLoadingPlot,
2007-08-24 11:14:24 +02:00
blmplots.LineViewXc,
blmplots.PcaScreePlot]
2006-12-18 12:59:12 +01:00
self.update(opt)
def make_model_options(self):
"""Options for make_model method."""
2007-01-31 13:03:11 +01:00
opt_list = ['scale', 'mode', 'amax']
2006-12-18 12:59:12 +01:00
return self._copy_from_list(opt_list)
def confidence_options(self):
"""Options for confidence method."""
opt_list = ['n_sets', 'aopt', 'alpha', 'p_center',
'strict', 'crot', 'cov_center']
return self._copy_from_list(opt_list)
2007-01-25 12:58:10 +01:00
def validation_options(self):
2006-12-18 12:59:12 +01:00
"""Options for pre_validation method."""
2007-01-25 12:58:10 +01:00
opt_list = ['amax', 'cv_val_sets', 'pert_val_sets',
'cv_val_method', 'pert_val_method']
2006-12-18 12:59:12 +01:00
return self._copy_from_list(opt_list)
class PlsOptions(Options):
"""Options for Partial Least Squares Regression.
"""
def __init__(self):
Options.__init__(self)
self._set_default()
2007-01-31 13:03:11 +01:00
def _set_default(self):
2006-12-18 12:59:12 +01:00
opt = {}
opt['algo'] = 'pls'
2007-02-09 15:02:58 +01:00
opt['engine'] = pls
2006-12-18 12:59:12 +01:00
opt['mode'] = 'normal' # how much info to calculate
2007-01-31 13:03:11 +01:00
opt['amax'] = 10
opt['aopt'] = 10
opt['auto_aopt'] = False
2006-12-18 12:59:12 +01:00
opt['center'] = True
opt['center_mth'] = mat_center
opt['scale'] = 'scores'
2007-08-07 13:39:16 +02:00
2007-08-14 18:12:28 +02:00
opt['calc_conf'] = True
2007-08-07 13:39:16 +02:00
opt['n_sets'] = 7
2006-12-18 12:59:12 +01:00
opt['strict'] = True
opt['p_center'] = 'med'
2007-08-07 13:39:16 +02:00
opt['alpha'] = .2
2006-12-18 12:59:12 +01:00
opt['cov_center'] = 'med'
opt['crot'] = True
2007-01-25 12:58:10 +01:00
2007-01-31 13:03:11 +01:00
opt['calc_cv'] = False
opt['cv_val_method'] = 'random'
opt['cv_val_sets'] = opt['n_sets']
2006-12-18 12:59:12 +01:00
2007-01-04 14:53:47 +01:00
opt['all_data'] = [('T', 'scores', True),
('P', 'loadings', True),
('E','residuals', False),
2007-08-14 18:12:28 +02:00
('w_tsq', 't2', True),
2007-01-25 12:58:10 +01:00
('rmsep', 'RMSEP', False)
2007-01-04 14:53:47 +01:00
]
2007-01-31 13:03:11 +01:00
# (class, name, sensitive, ticked)
2007-01-04 14:53:47 +01:00
opt['all_plots'] = [(blmplots.PlsScorePlot, 'Scores', True),
2007-08-24 11:14:24 +02:00
(blmplots.PlsXLoadingPlot, 'X-Loadings', True),
(blmplots.PlsYLoadingPlot, 'Y-Loadings', True),
2007-01-31 13:03:11 +01:00
(blmplots.LineViewXc, 'Line view', True),
(blmplots.PredictionErrorPlot, 'Residual Error', False),
2007-07-23 19:33:21 +02:00
(blmplots.RMSEPPlot, 'RMSEP', False),
2007-08-07 13:39:16 +02:00
(blmplots.PlsCorrelationLoadingPlot, 'Corr. loadings', False)
2007-01-31 13:03:11 +01:00
]
2007-08-14 18:12:28 +02:00
opt['out_data'] = ['T','P', 'w_tsq']
2007-08-24 11:14:24 +02:00
opt['out_plots'] = [blmplots.PlsScorePlot,blmplots.PlsXLoadingPlot,blmplots.PlsYLoadingPlot,blmplots.LineViewXc]
2007-01-31 13:03:11 +01:00
2007-08-14 18:12:28 +02:00
#opt['out_data'] = None
2007-01-04 14:53:47 +01:00
2007-02-09 15:02:58 +01:00
opt['pack'] = True
2006-12-18 12:59:12 +01:00
opt['calc_qvals'] = False
2007-01-31 13:03:11 +01:00
opt['q_pert_method'] = 'shuffle_rows'
2006-12-18 12:59:12 +01:00
opt['q_iter'] = 20
2007-01-04 14:53:47 +01:00
2006-12-18 12:59:12 +01:00
self.update(opt)
def make_model_options(self):
"""Options for make_model method."""
opt_list = ['scale','mode', 'amax', 'engine']
return self._copy_from_list(opt_list)
def confidence_options(self):
"""Options for confidence method."""
opt_list = ['n_sets', 'aopt', 'alpha', 'p_center',
2007-01-25 12:58:10 +01:00
'strict', 'crot', 'cov_center']
2006-12-18 12:59:12 +01:00
return self._copy_from_list(opt_list)
2007-01-31 13:03:11 +01:00
2007-07-26 20:32:27 +02:00
def validation_options(self):
opt_list = ['amax', 'n_sets', 'cv_val_method']
return self._copy_from_list(opt_list)
2007-07-23 19:33:21 +02:00
def permutation_confidence(self):
opt_list = ['q_pert_method', 'q_iter']
return self._copy_from_list(opt_list)
class LplsOptions(Options):
"""Options for L-shaped Partial Least Squares Regression.
"""
def __init__(self):
Options.__init__(self)
self._set_default()
def _set_default(self):
opt = {}
opt['engine'] = nipals_lpls
opt['mode'] = 'normal' # how much info to calculate
opt['amax'] = 10
2007-08-14 18:12:28 +02:00
opt['aopt'] = 3
2007-09-20 18:11:37 +02:00
opt['xz_alpha'] = 0.6
2007-07-23 19:33:21 +02:00
opt['auto_aopt'] = False
opt['center'] = True
2007-09-20 18:11:37 +02:00
opt['center_mth'] = [2, 0, 2]
2007-07-23 19:33:21 +02:00
opt['scale'] = 'scores'
2007-09-20 18:11:37 +02:00
opt['calc_conf'] = False
opt['n_sets'] = 7
2007-07-23 19:33:21 +02:00
opt['strict'] = False
opt['p_center'] = 'med'
2007-08-14 18:12:28 +02:00
opt['alpha'] = .3
2007-07-23 19:33:21 +02:00
opt['cov_center'] = 'med'
opt['crot'] = True
opt['calc_cv'] = False
opt['cv_val_method'] = 'random'
opt['cv_val_sets'] = opt['n_sets']
opt['all_data'] = [('T', 'scores', True),
('Wx', 'X-weights', True),
('Wz', 'Z-weights', True),
('E','residuals', False),
('tsq_x', 't2X', False),
('rmsep', 'RMSEP', False)
]
# (class, name, sensitive, ticked)
2007-08-24 11:14:24 +02:00
opt['all_plots'] = [(blmplots.LplsScorePlot, 'Scores', True),
(blmplots.LplsXLoadingPlot, 'Loadings', True),
2007-07-23 19:33:21 +02:00
(blmplots.LineViewXc, 'Line view', True),
2007-07-26 20:32:27 +02:00
(blmplots.LplsHypoidCorrelationPlot, 'Hypoid corr.', False),
(blmplots.LplsXCorrelationPlot, 'X corr.', True),
(blmplots.LplsZCorrelationPlot, 'Z corr.', True)
2007-07-23 19:33:21 +02:00
]
2007-08-14 18:12:28 +02:00
opt['out_data'] = ['T','P','L','K', 'tsqx', 'tsqz']
opt['out_plots'] = [blmplots.LplsScorePlot,
2007-07-26 20:32:27 +02:00
blmplots.LplsXLoadingPlot,
blmplots.LplsZLoadingPlot,
blmplots.LplsXCorrelationPlot,
blmplots.LplsZCorrelationPlot,
2007-08-14 18:12:28 +02:00
blmplots.LineViewXc,
blmplots.LplsExplainedVariancePlot]
2007-07-23 19:33:21 +02:00
#opt['out_data'] = None
opt['pack'] = False
opt['calc_qvals'] = False
opt['q_pert_method'] = 'shuffle_rows'
opt['q_iter'] = 20
self.update(opt)
def make_model_options(self):
"""Options for make_model method."""
opt_list = ['scale','mode', 'amax', 'engine']
return self._copy_from_list(opt_list)
def confidence_options(self):
"""Options for confidence method."""
opt_list = ['n_sets', 'aopt', 'alpha', 'p_center',
'strict', 'crot', 'cov_center']
return self._copy_from_list(opt_list)
2007-01-31 13:03:11 +01:00
def validation_options(self):
2006-12-18 12:59:12 +01:00
"""Options for pre_validation method."""
2007-01-31 13:03:11 +01:00
opt_list = ['amax', 'n_sets', 'cv_val_method']
return self._copy_from_list(opt_list)
2007-01-04 14:53:47 +01:00
class PcaOptionsDialog(OptionsDialog):
"""Options dialog for Principal Component Analysis.
"""
def __init__(self, data, options, input_names=['X']):
OptionsDialog.__init__(self, data, options, input_names)
glade_file = os.path.join(fluents.DATADIR, 'pca_options.glade')
2007-01-25 12:58:10 +01:00
notebook_name = "vbox1"
page_name = "Options"
self.add_page_from_glade(glade_file, notebook_name, page_name)
# connect signals to handlers
dic = {"on_amax_value_changed" : self.on_amax_changed,
"on_aopt_value_changed" : self.on_aopt_changed,
"auto_aopt_toggled" : self.auto_aopt_toggled,
"center_toggled" : self.center_toggled,
2007-01-31 13:03:11 +01:00
#"on_scale_changed" : self.on_scale_changed,
2007-01-25 12:58:10 +01:00
"on_val_none" : self.val_toggled,
"on_val_cv" : self.cv_toggled,
"on_val_pert" : self.pert_toggled,
"on_cv_method_changed" : self.on_cv_method_changed,
"on_cv_sets_changed" : self.on_cv_sets_changed,
"on_pert_sets_changed" : self.on_pert_sets_changed,
2007-01-31 13:03:11 +01:00
"on_conf_toggled" : self.on_conf_toggled,
"on_subset_loc_changed" : self.on_subset_loc_changed,
"on_cov_loc_changed" : self.on_cov_loc_changed,
"on_alpha_changed" : self.on_alpha_changed,
"on_rot_changed" : self.on_rot_changed
2007-01-25 12:58:10 +01:00
}
self.wTree.signal_autoconnect(dic)
# set/ensure valid default values/ranges
2007-01-31 13:03:11 +01:00
#
2007-01-25 12:58:10 +01:00
amax_sb = self.wTree.get_widget("amax_spinbutton")
max_comp = min(data[0].shape) # max num of components
if self._options['amax']>max_comp:
logger.log('debug', 'amax default too large ... adjusting')
self._options['amax'] = max_comp
amax_sb.get_adjustment().set_all(self._options['amax'], 1, max_comp, 1, 0, 0)
# aopt spin button
aopt_sb = self.wTree.get_widget("aopt_spinbutton")
if self._options['aopt']>self._options['amax']:
self._options['aopt'] = self._options['amax'] + 1 - 1
aopt_sb.get_adjustment().set_all(self._options['aopt'], 1, self._options['amax'], 1, 0, 0)
# scale
2007-01-31 13:03:11 +01:00
# scale_cb = self.wTree.get_widget("scale_combobox")
# scale_cb.set_active(0)
2007-01-25 12:58:10 +01:00
# validation frames
if self._options['calc_cv']==False:
cv_frame = self.wTree.get_widget("cv_frame")
cv_frame.set_sensitive(False)
if self._options['calc_pert']==False:
pert_frame = self.wTree.get_widget("pert_frame")
pert_frame.set_sensitive(False)
cv = self.wTree.get_widget("cv_method").set_active(0)
pm = self.wTree.get_widget("pert_method").set_active(0)
# confidence
if self._options['calc_conf']==True:
2007-01-31 13:03:11 +01:00
self.wTree.get_widget("subset_expander").set_sensitive(True)
2007-01-25 12:58:10 +01:00
else:
2007-01-31 13:03:11 +01:00
self.wTree.get_widget("subset_expander").set_sensitive(False)
cb = self.wTree.get_widget("subset_loc")
_m = {'med': 0, 'mean': 1, 'full_model': 2}
cb.set_active(_m.get(self._options['p_center']))
cb = self.wTree.get_widget("cov_loc")
_m = {'med': 0, 'mean': 1}
cb.set_active(_m.get(self._options['cov_center']))
hs = self.wTree.get_widget("alpha_scale")
hs.set_value(self._options['alpha'])
2007-01-25 12:58:10 +01:00
def on_amax_changed(self, sb):
logger.log("debug", "amax changed: new value: %s" %sb.get_value_as_int())
amax = sb.get_value_as_int()
# update aopt if needed
if amax<self._options['aopt']:
self._options['aopt'] = amax
aopt_sb = self.wTree.get_widget("aopt_spinbutton")
aopt_sb.get_adjustment().set_all(self._options['aopt'], 1, amax, 1, 0, 0)
self._options['amax'] = sb.get_value_as_int()
def on_aopt_changed(self, sb):
aopt = sb.get_value_as_int()
self._options['aopt'] = aopt
def auto_aopt_toggled(self, tb):
aopt_sb = self.wTree.get_widget("aopt_spinbutton")
if tb.get_active():
self._options['auto_aopt'] = True
aopt_sb.set_sensitive(False)
else:
self._options['auto_aopt'] = False
aopt_sb.set_sensitive(True)
def center_toggled(self, tb):
if tb.get_active():
self._options['center'] = True
else:
logger.log("debug", "centering set to False")
self._options['center'] = False
2007-01-31 13:03:11 +01:00
#def on_scale_changed(self, cb):
# scale = cb.get_active_text()
# if scale=='Scores':
# self._options['scale'] = 'scores'
# elif scale=='Loadings':
# self._options['scale'] = 'loads'
# else:
# raise IOError
2007-01-25 12:58:10 +01:00
def val_toggled(self, tb):
"""Callback for validation: None. """
cv_frame = self.wTree.get_widget("cv_frame")
pert_frame = self.wTree.get_widget("pert_frame")
cv_tb = self.wTree.get_widget("cv_toggle")
p_tb = self.wTree.get_widget("pert_toggle")
if tb.get_active():
self._options['calc_cv'] = False
self._options['calc_pert'] = False
cv_frame.set_sensitive(False)
pert_frame.set_sensitive(False)
cv_tb.set_sensitive(False)
p_tb.set_sensitive(False)
else:
p_tb.set_sensitive(True)
cv_tb.set_sensitive(True)
if p_tb.get_active():
pert_frame.set_sensitive(True)
self._options['calc_pert'] = True
if cv_tb.get_active():
cv_frame.set_sensitive(True)
self._options['calc_cv'] = True
def cv_toggled(self, tb):
cv_frame = self.wTree.get_widget("cv_frame")
if tb.get_active():
cv_frame.set_sensitive(True)
self._options['calc_cv'] = True
else:
cv_frame.set_sensitive(False)
self._options['calc_cv'] = False
def pert_toggled(self, tb):
pert_frame = self.wTree.get_widget("pert_frame")
if tb.get_active():
pert_frame.set_sensitive(True)
self._options['calc_pert'] = True
else:
pert_frame.set_sensitive(False)
self._options['calc_pert'] = False
def on_cv_method_changed(self, cb):
method = cb.get_active_text()
if method == 'Random':
self._options['cv_val_method'] = 'random'
def on_pert_method_changed(self, cb):
method = cb.get_active_text()
if method == 'Random diags':
self._options['pert_val_method'] = 'random_diag'
def on_cv_sets_changed(self, sb):
val = sb.get_value_as_int()
self._options['cv_val_sets'] = val
def on_pert_sets_changed(self, sb):
val = sb.get_value_as_int()
self._options['pert_val_sets'] = val
def on_conf_toggled(self, tb):
if tb.get_active():
self._options['calc_conf'] = False
2007-01-31 13:03:11 +01:00
self.wTree.get_widget("subset_expander").set_sensitive(False)
2007-01-25 12:58:10 +01:00
else:
self._options['calc_conf'] = True
2007-01-31 13:03:11 +01:00
self.wTree.get_widget("subset_expander").set_sensitive(True)
def on_subset_loc_changed(self, cb):
method = cb.get_active_text()
if method=='Full model':
self._options['p_center'] = 'full_model'
elif method=='Median':
self._options['p_center'] = 'med'
elif method=='Mean':
self._options['p_center'] = 'mean'
def on_cov_loc_changed(self, cb):
method = cb.get_active_text()
if method=='Median':
self._options['cov_center'] = 'med'
elif method=='Mean':
self._options['cov_center'] = 'mean'
def on_alpha_changed(self, hs):
self._options['alpha'] = hs.get_value()
def on_rot_changed(self, rg):
proc, strict = rg
if proc.get_active():
self._options['crot'] = True
else:
self._options['crot'] = True
2007-07-28 11:19:42 +02:00
self._options['strict'] = True
2007-01-04 14:53:47 +01:00
2007-07-23 19:33:21 +02:00
class LplsOptionsDialog(OptionsDialog):
"""Options dialog for L-shaped Partial Least squares regression.
"""
def __init__(self, data, options, input_names=['X', 'Y', 'Z']):
OptionsDialog.__init__(self, data, options, input_names)
glade_file = os.path.join(fluents.DATADIR, 'lpls_options.glade')
notebook_name = "vbox1"
page_name = "Options"
self.add_page_from_glade(glade_file, notebook_name, page_name)
# connect signals to handlers
dic = {"on_amax_value_changed" : self.on_amax_changed,
"on_aopt_value_changed" : self.on_aopt_changed,
"auto_aopt_toggled" : self.auto_aopt_toggled,
"center_toggled" : self.center_toggled,
#"on_scale_changed" : self.on_scale_changed,
"on_val_none" : self.val_toggled,
"on_val_cv" : self.cv_toggled,
"on_cv_method_changed" : self.on_cv_method_changed,
"on_cv_sets_changed" : self.on_cv_sets_changed,
"on_conf_toggled" : self.conf_toggled,
"on_subset_loc_changed" : self.on_subset_loc_changed,
"on_cov_loc_changed" : self.on_cov_loc_changed,
"on_alpha_changed" : self.on_alpha_changed,
"on_rot_changed" : self.on_rot_changed,
"on__toggled" : self.conf_toggled,
"on_qval_changed" : self.on_qval_changed,
"on_iter_changed" : self.on_iter_changed
}
self.wTree.signal_autoconnect(dic)
# set/ensure valid default values/ranges
#
amax_sb = self.wTree.get_widget("amax_spinbutton")
max_comp = min(data[0].shape) # max num of components
if self._options['amax']>max_comp:
logger.log('debug', 'amax default too large ... adjusting')
self._options['amax'] = max_comp
amax_sb.get_adjustment().set_all(self._options['amax'], 1, max_comp, 1, 0, 0)
# aopt spin button
aopt_sb = self.wTree.get_widget("aopt_spinbutton")
if self._options['aopt']>self._options['amax']:
self._options['aopt'] = self._options['amax'] + 1 - 1
aopt_sb.get_adjustment().set_all(self._options['aopt'], 1, self._options['amax'], 1, 0, 0)
# scale
# scale_cb = self.wTree.get_widget("scale_combobox")
# scale_cb.set_active(0)
# validation frames
if self._options['calc_cv']==False:
cv_frame = self.wTree.get_widget("cv_frame")
cv_frame.set_sensitive(False)
cv = self.wTree.get_widget("cv_method").set_active(0)
# confidence
if self._options['calc_conf']==True:
self.wTree.get_widget("subset_expander").set_sensitive(True)
else:
self.wTree.get_widget("subset_expander").set_sensitive(False)
cb = self.wTree.get_widget("subset_loc")
_m = {'med': 0, 'mean': 1, 'full_model': 2}
cb.set_active(_m.get(self._options['p_center']))
cb = self.wTree.get_widget("cov_loc")
_m = {'med': 0, 'mean': 1}
cb.set_active(_m.get(self._options['cov_center']))
hs = self.wTree.get_widget("alpha_scale")
hs.set_value(self._options['alpha'])
tb = self.wTree.get_widget("qvals")
tb.set_sensitive(True)
def on_amax_changed(self, sb):
logger.log("debug", "amax changed: new value: %s" %sb.get_value_as_int())
amax = sb.get_value_as_int()
# update aopt if needed
if amax<self._options['aopt']:
self._options['aopt'] = amax
aopt_sb = self.wTree.get_widget("aopt_spinbutton")
aopt_sb.get_adjustment().set_all(self._options['aopt'], 1, amax, 1, 0, 0)
self._options['amax'] = sb.get_value_as_int()
def on_aopt_changed(self, sb):
aopt = sb.get_value_as_int()
self._options['aopt'] = aopt
def auto_aopt_toggled(self, tb):
aopt_sb = self.wTree.get_widget("aopt_spinbutton")
if tb.get_active():
self._options['auto_aopt'] = True
aopt_sb.set_sensitive(False)
else:
self._options['auto_aopt'] = False
aopt_sb.set_sensitive(True)
def center_toggled(self, tb):
if tb.get_active():
self._options['center'] = True
else:
logger.log("debug", "centering set to False")
self._options['center'] = False
#def on_scale_changed(self, cb):
# scale = cb.get_active_text()
# if scale=='Scores':
# self._options['scale'] = 'scores'
# elif scale=='Loadings':
# self._options['scale'] = 'loads'
# else:
# raise IOError
def val_toggled(self, tb):
"""Callback for validation: None. """
cv_frame = self.wTree.get_widget("cv_frame")
cv_tb = self.wTree.get_widget("cv_toggle")
if tb.get_active():
self._options['calc_cv'] = False
cv_frame.set_sensitive(False)
cv_tb.set_sensitive(False)
else:
cv_tb.set_sensitive(True)
if cv_tb.get_active():
cv_frame.set_sensitive(True)
self._options['calc_cv'] = True
def cv_toggled(self, tb):
cv_frame = self.wTree.get_widget("cv_frame")
val_tb = self.wTree.get_widget("val_none_toggle")
if tb.get_active():
cv_frame.set_sensitive(True)
self._options['calc_cv'] = True
else:
cv_frame.set_sensitive(False)
self._options['calc_cv'] = False
def on_cv_method_changed(self, cb):
method = cb.get_active_text()
if method == 'Random':
self._options['cv_val_method'] = 'random'
def on_cv_sets_changed(self, sb):
val = sb.get_value_as_int()
self._options['cv_val_sets'] = val
def conf_toggled(self, tb):
if tb.get_active():
self._options['calc_conf'] = False
self.wTree.get_widget("subset_expander").set_sensitive(False)
else:
self._options['calc_conf'] = True
self.wTree.get_widget("subset_expander").set_sensitive(True)
def on_subset_loc_changed(self, cb):
method = cb.get_active_text()
if method=='Full model':
self._options['p_center'] = 'full_model'
elif method=='Median':
self._options['p_center'] = 'med'
elif method=='Mean':
self._options['p_center'] = 'mean'
def on_cov_loc_changed(self, cb):
method = cb.get_active_text()
if method=='Median':
self._options['cov_center'] = 'med'
elif method=='Mean':
self._options['cov_center'] = 'mean'
def on_alpha_changed(self, hs):
self._options['alpha'] = hs.get_value()
def on_rot_changed(self, rg):
proc, strict = rg
if proc.get_active():
self._options['crot'] = True
else:
self._options['crot'] = True
self._options['strict'] = True
def qval_toggled(self, tb):
if tb.get_active():
self._options['calc_qval'] = False
self.wTree.get_widget("qval_method").set_sensitive(False)
self.wTree.get_widget("q_iter").set_sensitive(False)
else:
self._options['calc_qval'] = True
self.wTree.get_widget("qval_method").set_sensitive(True)
self.wTree.get_widget("q_iter").set_sensitive(True)
def on_iter_changed(self, sb):
self._options['q_iter'] = sb.get_value()
def on_qval_changed(self, cb):
q_method = cb.get_active_text()
if method=='Shuffle rows':
self._options['q_pert_method'] = 'shuffle'
2007-01-04 14:53:47 +01:00
class PlsOptionsDialog(OptionsDialog):
2007-01-31 13:03:11 +01:00
"""Options dialog for Partial Least squares regression.
2007-01-04 14:53:47 +01:00
"""
def __init__(self, data, options, input_names=['X', 'Y']):
OptionsDialog.__init__(self, data, options, input_names)
glade_file = os.path.join(fluents.DATADIR, 'pls_options.glade')
2007-01-31 13:03:11 +01:00
notebook_name = "vbox1"
page_name = "Options"
self.add_page_from_glade(glade_file, notebook_name, page_name)
# connect signals to handlers
dic = {"on_amax_value_changed" : self.on_amax_changed,
"on_aopt_value_changed" : self.on_aopt_changed,
"auto_aopt_toggled" : self.auto_aopt_toggled,
"center_toggled" : self.center_toggled,
#"on_scale_changed" : self.on_scale_changed,
"on_val_none" : self.val_toggled,
"on_val_cv" : self.cv_toggled,
"on_cv_method_changed" : self.on_cv_method_changed,
"on_cv_sets_changed" : self.on_cv_sets_changed,
"on_conf_toggled" : self.conf_toggled,
"on_subset_loc_changed" : self.on_subset_loc_changed,
"on_cov_loc_changed" : self.on_cov_loc_changed,
"on_alpha_changed" : self.on_alpha_changed,
"on_rot_changed" : self.on_rot_changed,
"on__toggled" : self.conf_toggled,
"on_qval_changed" : self.on_qval_changed,
"on_iter_changed" : self.on_iter_changed
}
self.wTree.signal_autoconnect(dic)
# set/ensure valid default values/ranges
#
amax_sb = self.wTree.get_widget("amax_spinbutton")
max_comp = min(data[0].shape) # max num of components
if self._options['amax']>max_comp:
logger.log('debug', 'amax default too large ... adjusting')
self._options['amax'] = max_comp
amax_sb.get_adjustment().set_all(self._options['amax'], 1, max_comp, 1, 0, 0)
# aopt spin button
aopt_sb = self.wTree.get_widget("aopt_spinbutton")
if self._options['aopt']>self._options['amax']:
self._options['aopt'] = self._options['amax'] + 1 - 1
aopt_sb.get_adjustment().set_all(self._options['aopt'], 1, self._options['amax'], 1, 0, 0)
# scale
# scale_cb = self.wTree.get_widget("scale_combobox")
# scale_cb.set_active(0)
# validation frames
if self._options['calc_cv']==False:
cv_frame = self.wTree.get_widget("cv_frame")
cv_frame.set_sensitive(False)
cv = self.wTree.get_widget("cv_method").set_active(0)
# confidence
if self._options['calc_conf']==True:
self.wTree.get_widget("subset_expander").set_sensitive(True)
else:
self.wTree.get_widget("subset_expander").set_sensitive(False)
cb = self.wTree.get_widget("subset_loc")
_m = {'med': 0, 'mean': 1, 'full_model': 2}
cb.set_active(_m.get(self._options['p_center']))
cb = self.wTree.get_widget("cov_loc")
_m = {'med': 0, 'mean': 1}
cb.set_active(_m.get(self._options['cov_center']))
hs = self.wTree.get_widget("alpha_scale")
hs.set_value(self._options['alpha'])
tb = self.wTree.get_widget("qvals")
tb.set_sensitive(True)
def on_amax_changed(self, sb):
logger.log("debug", "amax changed: new value: %s" %sb.get_value_as_int())
amax = sb.get_value_as_int()
# update aopt if needed
if amax<self._options['aopt']:
self._options['aopt'] = amax
aopt_sb = self.wTree.get_widget("aopt_spinbutton")
aopt_sb.get_adjustment().set_all(self._options['aopt'], 1, amax, 1, 0, 0)
self._options['amax'] = sb.get_value_as_int()
def on_aopt_changed(self, sb):
aopt = sb.get_value_as_int()
self._options['aopt'] = aopt
def auto_aopt_toggled(self, tb):
aopt_sb = self.wTree.get_widget("aopt_spinbutton")
if tb.get_active():
self._options['auto_aopt'] = True
aopt_sb.set_sensitive(False)
else:
self._options['auto_aopt'] = False
aopt_sb.set_sensitive(True)
def center_toggled(self, tb):
if tb.get_active():
self._options['center'] = True
else:
logger.log("debug", "centering set to False")
self._options['center'] = False
#def on_scale_changed(self, cb):
# scale = cb.get_active_text()
# if scale=='Scores':
# self._options['scale'] = 'scores'
# elif scale=='Loadings':
# self._options['scale'] = 'loads'
# else:
# raise IOError
def val_toggled(self, tb):
"""Callback for validation: None. """
cv_frame = self.wTree.get_widget("cv_frame")
cv_tb = self.wTree.get_widget("cv_toggle")
if tb.get_active():
self._options['calc_cv'] = False
cv_frame.set_sensitive(False)
cv_tb.set_sensitive(False)
else:
cv_tb.set_sensitive(True)
if cv_tb.get_active():
cv_frame.set_sensitive(True)
self._options['calc_cv'] = True
def cv_toggled(self, tb):
cv_frame = self.wTree.get_widget("cv_frame")
val_tb = self.wTree.get_widget("val_none_toggle")
if tb.get_active():
cv_frame.set_sensitive(True)
self._options['calc_cv'] = True
else:
cv_frame.set_sensitive(False)
self._options['calc_cv'] = False
def on_cv_method_changed(self, cb):
method = cb.get_active_text()
if method == 'Random':
self._options['cv_val_method'] = 'random'
def on_cv_sets_changed(self, sb):
val = sb.get_value_as_int()
self._options['cv_val_sets'] = val
def conf_toggled(self, tb):
if tb.get_active():
self._options['calc_conf'] = False
self.wTree.get_widget("subset_expander").set_sensitive(False)
else:
self._options['calc_conf'] = True
self.wTree.get_widget("subset_expander").set_sensitive(True)
def on_subset_loc_changed(self, cb):
method = cb.get_active_text()
if method=='Full model':
self._options['p_center'] = 'full_model'
elif method=='Median':
self._options['p_center'] = 'med'
elif method=='Mean':
self._options['p_center'] = 'mean'
def on_cov_loc_changed(self, cb):
method = cb.get_active_text()
if method=='Median':
self._options['cov_center'] = 'med'
elif method=='Mean':
self._options['cov_center'] = 'mean'
def on_alpha_changed(self, hs):
self._options['alpha'] = hs.get_value()
def on_rot_changed(self, rg):
proc, strict = rg
if proc.get_active():
self._options['crot'] = True
else:
self._options['crot'] = True
self._options['strict'] = True
def qval_toggled(self, tb):
if tb.get_active():
self._options['calc_qval'] = False
self.wTree.get_widget("qval_method").set_sensitive(False)
self.wTree.get_widget("q_iter").set_sensitive(False)
else:
self._options['calc_qval'] = True
self.wTree.get_widget("qval_method").set_sensitive(True)
self.wTree.get_widget("q_iter").set_sensitive(True)
def on_iter_changed(self, sb):
self._options['q_iter'] = sb.get_value()
def on_qval_changed(self, cb):
q_method = cb.get_active_text()
if method=='Shuffle rows':
self._options['q_pert_method'] = 'shuffle'