def __repr__(self): s = LinearOperator.__repr__(self) return s[:-1] + " and coef=%f >" % self.coef
def __repr__(self): s = LinearOperator.__repr__(self) return s[:-1] + "\n and diagonal=" + self.d.__repr__() + ">"
def __repr__(self): s = LinearOperator.__repr__(self) return s[:-1] + ",\n Replicate %i times" % self.n + ">"
def __repr__(self): s = LinearOperator.__repr__(self)[:-1] s += ",\n superdiagonal=" + self.superdiag.__repr__() s += ",\n diagonal=" + self.diag.__repr__() s += ",\n subdiagonal=" + self.subdiag.__repr__() + ">" return s
def __repr__(self): s = LinearOperator.__repr__(self) return s[:-1] + " and shift=%d >" % self.shift
def __repr__(self): s = LinearOperator.__repr__(self) return s[:-1] + ",\n permutation=" + self.perm.__repr__() + ">"
def __repr__(self): s = LinearOperator.__repr__(self) return s[:-1] + ",\n diagonal=" + self.diag.__repr__() + ">"