Python ====== Before generating code for a parametric problem, the problem should be first specified in the setup phase. See :ref:`python_setup` for more details. Codegen ------- The code is generated by running .. code:: python m.codegen(dir_name, **opts) The argument :code:`dir_name` is the name of a directory where the generated code is stored. Additional codegen options are shown in the following table +-------------------------+---------------------------------------------------+--------------------------------+ | Option | Description | Allowed values | +=========================+===================================================+================================+ | :code:`project_type` | Build environment | | :code:`''` (default) | | | | | :code:`'Makefile'` | | | | | :code:`'MinGW Makefiles'` | | | | | :code:`'Unix Makefiles'` | | | | | :code:`'CodeBlocks'` | | | | | :code:`'Xcode'` | +-------------------------+---------------------------------------------------+--------------------------------+ | :code:`parameters` | Problem parameters | | :code:`'vectors'` (default) | | | | | :code:`'matrices'` | +-------------------------+---------------------------------------------------+--------------------------------+ | :code:`python_ext_name` | Name of the generated Python module | | :code:`'emosqp'` (default) | | | | | Nonempty string | +-------------------------+---------------------------------------------------+--------------------------------+ | :code:`force_rewrite` | Rewrite existing directory | | :code:`False` (default) | | | | | :code:`True` | +-------------------------+---------------------------------------------------+--------------------------------+ | :code:`FLOAT` | Use :code:`float` type instead of :code:`double` | | :code:`False` (default) | | | | | :code:`True` | +-------------------------+---------------------------------------------------+--------------------------------+ | :code:`LONG` | Use :code:`long long` type instead of :code:`int` | | :code:`True` (default) | | | | | :code:`False` | +-------------------------+---------------------------------------------------+--------------------------------+ The options are passed using named arguments, e.g., .. code:: python m.codegen('code', parameters='matrices', python_ext_name='emosqp') If the :code:`project_type` argument is not passed or is set to :code:`''`, then no build files are generated. Extension module API -------------------- Once the code is generated, you can import a light python wrapper with .. code:: python import emosqp where :code:`emosqp` is the extension name given in the previous section. The module imports the following functions .. py:function:: solve() :noindex: Solve the problem. :returns: tuple (x, y, status_val, iter, run_time) - **x** (*ndarray*) - Primal solution - **y** (*ndarray*) - Dual solution - **status_val** (*int*) - Status value as in :ref:`status_values` - **iter** (*int*) - Number of iterations - **run_time** (*double*) - Run time .. py:function:: update_lin_cost(q_new) :noindex: Update linear cost. :param ndarray q_new: New linear cost vector .. py:function:: update_lower_bound(l_new) :noindex: Update lower bound in the constraints. :param ndarray l_new: New lower bound vector .. py:function:: update_upper_bound(u_new) :noindex: Update upper bound in the constraints. :param ndarray u_new: New upper bound vector .. py:function:: update_bounds(l_new, u_new) :noindex: Update lower and upper bounds in the constraints. :param ndarray l_new: New lower bound vector :param ndarray u_new: New upper bound vector If the code is generated with the option :code:`parameters` set to :code:`'matrices'`, the following functions are also provided .. py:function:: update_P(Px, Px_idx, Px_n) :noindex: Update nonzero entries of the quadratic cost matrix (only upper triangular) without changing sparsity structure. :param ndarray Px: Values of entries to be updated :param ndarray Px_idx: Indices of entries to be updated. Pass :code:`None` if all the indices are to be updated :param int Px_n: Number of entries to be updated. Used only if Px_idx is not :code:`None`. .. py:function:: update_A(Ax, Ax_idx, Ax_n) :noindex: Update nonzero entries of the constraint matrix. :param ndarray Ax: Values of entries to be updated :param ndarray Ax_idx: Indices of entries to be updated. Pass :code:`None` if all the indices are to be updated :param int Ax_n: Number of entries to be updated. Used only if Ax_idx is not :code:`None`. .. py:function:: update_P_A(Px, Px_idx, Px_n, Ax, Ax_idx, Ax_n) :noindex: Update nonzero entries of the quadratic cost and constraint matrices. It considers only the upper-triangular part of P. :param ndarray Px: Values of entries to be updated :param ndarray Px_idx: Indices of entries to be updated. Pass :code:`None` if all the indices are to be updated :param int Px_n: Number of entries to be updated. Used only if Px_idx is not :code:`None`. :param ndarray Ax: Values of entries to be updated :param ndarray Ax_idx: Indices of entries to be updated. Pass :code:`None` if all the indices are to be updated :param int Ax_n: Number of entries to be updated. Used only if Ax_idx is not :code:`None`. You can update all the nonzero entries in matrix :math:`A` by running .. code:: python emosqp.update_A(Ax_new, None, 0); See C :ref:`C_sublevel_API` for more details on the input arguments.