9

I want to greedily search the entire parameter space of my support vector classifier using GridSearchCV. However, some combinations of parameters are forbidden by LinearSVC and throw an exception. In particular, there are mutually exclusive combinations of the dual, penalty, and loss parameters:

For example, this code:

from sklearn import svm, datasets
from sklearn.model_selection import GridSearchCV

iris = datasets.load_iris()
parameters = {'dual':[True, False], 'penalty' : ['l1', 'l2'], \
              'loss': ['hinge', 'squared_hinge']}
svc = svm.LinearSVC()
clf = GridSearchCV(svc, parameters)
clf.fit(iris.data, iris.target)

Returns ValueError: Unsupported set of arguments: The combination of penalty='l2' and loss='hinge' are not supported when dual=False, Parameters: penalty='l2', loss='hinge', dual=False

My question is: is it possible to make GridSearchCV skip combinations of parameters which the model forbids? If not, is there an easy way to construct a parameter space which won't violate the rules?

20

I solved this problem by passing error_score=0.0 to GridSearchCV:

error_score : ‘raise’ (default) or numeric

Value to assign to the score if an error occurs in estimator fitting. If set to ‘raise’, the error is raised. If a numeric value is given, FitFailedWarning is raised. This parameter does not affect the refit step, which will always raise the error.

  • Is there a workaround to actually avoid these combinations (or any other) before they actually output any error? – GRoutar Dec 20 '18 at 21:13
  • @Khabz my answer was too big to fit in the comments, so I posted it as another answer. – crypdick Dec 21 '18 at 2:23
3

If you want to completely avoid exploring specific combinations (without waiting to run into errors), you have to construct the grid yourself. GridSearchCV can take a list of dicts, where the grids spanned by each dictionary in the list are explored.

In this case, the conditional logic was not so bad, but it would be really tedious for something more complicated:

from sklearn import svm, datasets
from sklearn.model_selection import GridSearchCV
from itertools import product

iris = datasets.load_iris()

duals = [True, False]
penaltys = ['l1', 'l2']
losses = ['hinge', 'squared_hinge']
all_params = list(product(duals, penaltys, losses))
filtered_params = [{'dual': [dual], 'penalty' : [penalty], 'loss': [loss]}
                   for dual, penalty, loss in all_params
                   if not (penalty == 'l1' and loss == 'hinge') 
                   and not ((penalty == 'l1' and loss == 'squared_hinge' and dual is True))
                  and not ((penalty == 'l2' and loss == 'hinge' and dual is False))]

svc = svm.LinearSVC()
clf = GridSearchCV(svc, filtered_params)
clf.fit(iris.data, iris.target)
  • I appreciate your effort but this seems like a slightly sketchy solution which would result in alot of verbose for a problem with a big number of restrictions – GRoutar Dec 24 '18 at 20:58
  • @Khabz agreed, this code is cursed! If there's a bazillion conditionals, one possibility is to programmatically construct the list of conditionals in filtered_params, then str.join(conditionals_list), and finally eval() the string to do the list comprehension. – crypdick Dec 25 '18 at 21:06

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