Representation of holonomic functions in SymPy ============================================== .. currentmodule:: sympy.holonomic.holonomic Class :class:`DifferentialOperator` is used to represent the annihilator but we create differential operators easily using the function :func:`DifferentialOperators`. Class :class:`HolonomicFunction` represents a holonomic function. Let's explain this with an example: Take `\sin(x)` for instance, the differential equation satisfied by it is `y^{(2)}(x) + y(x) = 0`. By definition we conclude it is a holonomic function. The general solution of this ODE is `C_{1} \cdot \sin(x) + C_{2} \cdot \cos(x)` but to get `\sin(x)` we need to provide initial conditions i.e. `y(0) = 0, y^{(1)}(0) = 1`. To represent the same in this module one needs to provide the differential equation in the form of annihilator. Basically a differential operator is an operator on functions that differentiates them. So `D^{n} \cdot y(x) = y^{(n)}(x)` where :math:`y^{(n)}(x)` denotes ``n`` times differentiation of :math:`y(x)` with respect to ``x``. So the differential equation can also be written as :math:`D^{2} \cdot y(x) + y(x) = 0` or `(D^{2} + 1) \cdot y(x) = 0`. The part left of :math:`y(x)` is the annihilator i.e. :math:`D^{2}+1`. So this is how one will represent `\sin(x)` as a Holonomic Function: >>> from sympy.holonomic import DifferentialOperators, HolonomicFunction >>> from sympy.abc import x >>> from sympy import ZZ >>> R, D = DifferentialOperators(ZZ.old_poly_ring(x), 'D') >>> HolonomicFunction(D**2 + 1, x, 0, [0, 1]) HolonomicFunction((1) + (1)*D**2, x, 0, [0, 1]) The polynomial coefficients will be members of the ring ``ZZ[x]`` in the example. The ``D`` operator returned by the function :py:func:`DifferentialOperators` can be used to create annihilators just like SymPy expressions. We currently use the older implementations of rings in SymPy for priority mechanism. HolonomicFunction ----------------- .. autoclass:: HolonomicFunction DifferentialOperator -------------------- .. autoclass:: DifferentialOperator :members: DifferentialOperators --------------------- .. autofunction:: DifferentialOperators DifferentialOperatorAlgebra --------------------------- .. autoclass:: DifferentialOperatorAlgebra :members: