Exemple #1
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    def decode_variable(
            self,
            variable: int) -> Tuple[Factor, Union[SimpleLevel, DerivedLevel]]:
        """Given a variable number from the SAT formula, this method will
        return the associated factor and level name.
        """
        # Shift to zero-based index
        variable -= 1

        if variable < self.grid_variables():
            variable = variable % self.variables_per_trial()
            simple_factors = list(
                filter(lambda f: not f.has_complex_window, self.design))
            simple_tuples = get_all_levels(simple_factors)
            return simple_tuples[variable]
        else:
            complex_factors = list(
                filter(lambda f: f.has_complex_window, self.design))
            for f in complex_factors:
                start = self.first_variable_for_level(f, f.levels[0])
                end = start + self.variables_for_factor(f)
                if variable in range(start, end):
                    tuples = get_all_levels([f])
                    return tuples[(variable - start) % len(f.levels)]

        raise RuntimeError('Unable to find factor/level for variable!')
Exemple #2
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    def first_variable_for_level(self, factor: Factor, level: Any) -> int:
        """Returns the first index for this variable in a trial sequence
        representing the given factor and level. (0-based.)
        """
        if not isinstance(level, (SimpleLevel, DerivedLevel)):
            raise ValueError(
                f"Attempted to find first variable of non-Level object: {level}."
            )
        if factor.has_complex_window:
            offset = 0
            complex_factors = filter(lambda f: f.has_complex_window,
                                     self.design)
            for f in complex_factors:
                if f == factor:
                    offset += f.levels.index(level)
                    break
                else:
                    offset += self.variables_for_factor(f)

            return self.grid_variables() + offset

        else:
            simple_factors = list(
                filter(lambda f: not f.has_complex_window, self.design))
            simple_levels = get_all_levels(simple_factors)
            return simple_levels.index((factor, level))
Exemple #3
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def assert_atmostkinarow(c: at_most_k_in_a_row,
                         experiments: List[dict]) -> None:
    if isinstance(c.level, Factor):
        __assert_atmostkinarow_factor(c.k, c.level, experiments)
    else:
        level_tuples = get_all_levels([c.level])
        for t in level_tuples:
            __assert_atmostkinarow_pair(c.k, t, experiments)
Exemple #4
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    def first_variable_for_level(self, factor: Factor, level: Any) -> int:
        if (type(level) is not SimpleLevel
                and type(level) is not DerivedLevel):
            print("Attempt to find first variable for a non-level object " +
                  str(level))
        if factor.has_complex_window():
            offset = 0
            complex_factors = filter(lambda f: f.has_complex_window(),
                                     self.design)
            for f in complex_factors:
                if f == factor:
                    offset += f.levels.index(level)
                    break
                else:
                    offset += self.variables_for_factor(f)

            return self.grid_variables() + offset

        else:
            simple_factors = list(
                filter(lambda f: not f.has_complex_window(), self.design))
            simple_levels = get_all_levels(simple_factors)
            return simple_levels.index((factor, level))