def explain(self): """ post: len(__return__) == 3 """ head = _('Squarish grid sampler: %d*%d') \ % (self.tiles, self.tiles) return ka_utils.explain_points(head, self.get_sample_points())
def explain(self): """ post: len(__return__) == 3 """ head = _('Random walk sampler: %d points') \ % (len(self.direction_steps)) return ka_utils.explain_points(head, self.get_sample_points())
def explain(self): """ post: len(__return__) == 3 """ head = _('Rectilinear grid sampler: %d*x, %d*y') \ % (self.x_tiles, self.y_tiles) return ka_utils.explain_points(head, self.get_sample_points())
def explain(self): """ post: len(__return__) == 3 """ head = _('Logarithmic spiral sampler: center=%f,%f, revolutions=%f, steps per revolution=%d, a=%f, b=%f') \ % (self.x_center, self.y_center, self.turns, self.steps, self.a, self.b) return ka_utils.explain_points(head, self.get_sample_points())
def explain(self): """ post: len(__return__) == 3 """ head = _("Fermat's spiral sampler: center=%f,%f, start steps=%d, end steps=%d, radian=%f, scaling=%f") \ % (self.x_center, self.y_center, self.start, self.end, self.angle, self.c) return ka_utils.explain_points(head, self.get_sample_points())
def explain(self): """ post: len(__return__) == 3 """ head = _('Affine iterated function system sampler') details = _('iterations=%d, transformations=%d symmetry=%d, Dn=%d: ') details = details % (self.orbits, self.num_transformations, self.symmetry, self.Dn) return ka_utils.explain_points(head + ' ' + details + ': ', self.get_sample_points())