dragonpilot/pyextra/acados_template/acados_sim_solver.py

# -*- coding: future_fstrings -*-
#
# Copyright 2019 Gianluca Frison, Dimitris Kouzoupis, Robin Verschueren,
# Andrea Zanelli, Niels van Duijkeren, Jonathan Frey, Tommaso Sartor,
# Branimir Novoselnik, Rien Quirynen, Rezart Qelibari, Dang Doan,
# Jonas Koenemann, Yutao Chen, Tobias Schöls, Jonas Schlagenhauf, Moritz Diehl
#
# This file is part of acados.
#
# The 2-Clause BSD License
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# 1. Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
#
# 2. Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.;
#

import sys, os, json

import numpy as np

from ctypes import *
from copy import deepcopy

from .generate_c_code_explicit_ode import generate_c_code_explicit_ode
from .generate_c_code_implicit_ode import generate_c_code_implicit_ode
from .generate_c_code_gnsf import generate_c_code_gnsf
from .acados_sim import AcadosSim
from .acados_ocp import AcadosOcp
from .acados_model import acados_model_strip_casadi_symbolics
from .utils import is_column, render_template, format_class_dict, np_array_to_list,\
     make_model_consistent, set_up_imported_gnsf_model, get_python_interface_path


def make_sim_dims_consistent(acados_sim):
    dims = acados_sim.dims
    model = acados_sim.model
    # nx
    if is_column(model.x):
        dims.nx = model.x.shape[0]
    else:
        raise Exception("model.x should be column vector!")

    # nu
    if is_column(model.u):
        dims.nu = model.u.shape[0]
    elif model.u == None or model.u == []:
        dims.nu = 0
    else:
        raise Exception("model.u should be column vector or None!")

    # nz
    if is_column(model.z):
        dims.nz = model.z.shape[0]
    elif model.z == None or model.z == []:
        dims.nz = 0
    else:
        raise Exception("model.z should be column vector or None!")

    # np
    if is_column(model.p):
        dims.np = model.p.shape[0]
    elif model.p == None or model.p == []:
        dims.np = 0
    else:
        raise Exception("model.p should be column vector or None!")


def get_sim_layout():
    python_interface_path = get_python_interface_path()
    abs_path = os.path.join(python_interface_path, 'acados_sim_layout.json')
    with open(abs_path, 'r') as f:
        sim_layout = json.load(f)
    return sim_layout


def sim_formulation_json_dump(acados_sim, json_file='acados_sim.json'):
    # Load acados_sim structure description
    sim_layout = get_sim_layout()

    # Copy input sim object dictionary
    sim_dict = dict(deepcopy(acados_sim).__dict__)

    for key, v in sim_layout.items():
        # skip non dict attributes
        if not isinstance(v, dict): continue
        # Copy sim object attributes dictionaries
        sim_dict[key]=dict(getattr(acados_sim, key).__dict__)

    sim_dict['model'] = acados_model_strip_casadi_symbolics(sim_dict['model'])
    sim_json = format_class_dict(sim_dict)

    with open(json_file, 'w') as f:
        json.dump(sim_json, f, default=np_array_to_list, indent=4, sort_keys=True)


def sim_render_templates(json_file, model_name, code_export_dir):
    # setting up loader and environment
    json_path = os.path.join(os.getcwd(), json_file)

    if not os.path.exists(json_path):
        raise Exception(f"{json_path} not found!")

    template_dir = code_export_dir

    ## Render templates
    in_file = 'acados_sim_solver.in.c'
    out_file = f'acados_sim_solver_{model_name}.c'
    render_template(in_file, out_file, template_dir, json_path)

    in_file = 'acados_sim_solver.in.h'
    out_file = f'acados_sim_solver_{model_name}.h'
    render_template(in_file, out_file, template_dir, json_path)

    in_file = 'Makefile.in'
    out_file = f'Makefile'
    render_template(in_file, out_file, template_dir, json_path)

    in_file = 'main_sim.in.c'
    out_file = f'main_sim_{model_name}.c'
    render_template(in_file, out_file, template_dir, json_path)

    ## folder model
    template_dir = os.path.join(code_export_dir, model_name + '_model')

    in_file = 'model.in.h'
    out_file = f'{model_name}_model.h'
    render_template(in_file, out_file, template_dir, json_path)


def sim_generate_casadi_functions(acados_sim):
    model = acados_sim.model
    model = make_model_consistent(model)

    integrator_type = acados_sim.solver_options.integrator_type

    opts = dict(generate_hess = acados_sim.solver_options.sens_hess,
                code_export_directory = acados_sim.code_export_directory)
    # generate external functions
    if integrator_type == 'ERK':
        generate_c_code_explicit_ode(model, opts)
    elif integrator_type == 'IRK':
        generate_c_code_implicit_ode(model, opts)
    elif integrator_type == 'GNSF':
        generate_c_code_gnsf(model, opts)

class AcadosSimSolver:
    """
    Class to interact with the acados integrator C object.

    :param acados_sim: type :py:class:`acados_template.acados_ocp.AcadosOcp` (takes values to generate an instance :py:class:`acados_template.acados_sim.AcadosSim`) or :py:class:`acados_template.acados_sim.AcadosSim`
    :param json_file: Default: 'acados_sim.json'
    :param build: Default: True
    """
    def __init__(self, acados_sim_, json_file='acados_sim.json', build=True):

        self.solver_created = False

        if isinstance(acados_sim_, AcadosOcp):
            # set up acados_sim_
            acados_sim = AcadosSim()
            acados_sim.model = acados_sim_.model
            acados_sim.dims.nx = acados_sim_.dims.nx
            acados_sim.dims.nu = acados_sim_.dims.nu
            acados_sim.dims.nz = acados_sim_.dims.nz
            acados_sim.dims.np = acados_sim_.dims.np
            acados_sim.solver_options.integrator_type = acados_sim_.solver_options.integrator_type
            acados_sim.code_export_directory = acados_sim_.code_export_directory

        elif isinstance(acados_sim_, AcadosSim):
            acados_sim = acados_sim_

        acados_sim.__problem_class = 'SIM'

        model_name = acados_sim.model.name
        make_sim_dims_consistent(acados_sim)

        # reuse existing json and casadi functions, when creating integrator from ocp
        if isinstance(acados_sim_, AcadosSim):
            if acados_sim.solver_options.integrator_type == 'GNSF':
                set_up_imported_gnsf_model(acados_sim)

            sim_generate_casadi_functions(acados_sim)
            sim_formulation_json_dump(acados_sim, json_file)

        code_export_dir = acados_sim.code_export_directory
        if build:
            # render templates
            sim_render_templates(json_file, model_name, code_export_dir)

            ## Compile solver
            cwd = os.getcwd()
            os.chdir(code_export_dir)
            os.system('make sim_shared_lib')
            os.chdir(cwd)

        self.sim_struct = acados_sim
        model_name = self.sim_struct.model.name
        self.model_name = model_name

        # Ctypes
        shared_lib = f'{code_export_dir}/libacados_sim_solver_{model_name}.so'
        self.shared_lib = CDLL(shared_lib)


        # create capsule
        getattr(self.shared_lib, f"{model_name}_acados_sim_solver_create_capsule").restype = c_void_p
        self.capsule = getattr(self.shared_lib, f"{model_name}_acados_sim_solver_create_capsule")()

        # create solver
        getattr(self.shared_lib, f"{model_name}_acados_sim_create").argtypes = [c_void_p]
        getattr(self.shared_lib, f"{model_name}_acados_sim_create").restype = c_int
        assert getattr(self.shared_lib, f"{model_name}_acados_sim_create")(self.capsule)==0
        self.solver_created = True

        getattr(self.shared_lib, f"{model_name}_acados_get_sim_opts").argtypes = [c_void_p]
        getattr(self.shared_lib, f"{model_name}_acados_get_sim_opts").restype = c_void_p
        self.sim_opts = getattr(self.shared_lib, f"{model_name}_acados_get_sim_opts")(self.capsule)

        getattr(self.shared_lib, f"{model_name}_acados_get_sim_dims").argtypes = [c_void_p]
        getattr(self.shared_lib, f"{model_name}_acados_get_sim_dims").restype = c_void_p
        self.sim_dims = getattr(self.shared_lib, f"{model_name}_acados_get_sim_dims")(self.capsule)

        getattr(self.shared_lib, f"{model_name}_acados_get_sim_config").argtypes = [c_void_p]
        getattr(self.shared_lib, f"{model_name}_acados_get_sim_config").restype = c_void_p
        self.sim_config = getattr(self.shared_lib, f"{model_name}_acados_get_sim_config")(self.capsule)

        getattr(self.shared_lib, f"{model_name}_acados_get_sim_out").argtypes = [c_void_p]
        getattr(self.shared_lib, f"{model_name}_acados_get_sim_out").restype = c_void_p
        self.sim_out = getattr(self.shared_lib, f"{model_name}_acados_get_sim_out")(self.capsule)

        getattr(self.shared_lib, f"{model_name}_acados_get_sim_in").argtypes = [c_void_p]
        getattr(self.shared_lib, f"{model_name}_acados_get_sim_in").restype = c_void_p
        self.sim_in = getattr(self.shared_lib, f"{model_name}_acados_get_sim_in")(self.capsule)

        getattr(self.shared_lib, f"{model_name}_acados_get_sim_solver").argtypes = [c_void_p]
        getattr(self.shared_lib, f"{model_name}_acados_get_sim_solver").restype = c_void_p
        self.sim_solver = getattr(self.shared_lib, f"{model_name}_acados_get_sim_solver")(self.capsule)

        nu = self.sim_struct.dims.nu
        nx = self.sim_struct.dims.nx
        nz = self.sim_struct.dims.nz
        self.gettable = {
            'x': nx,
            'xn': nx,
            'u': nu,
            'z': nz,
            'S_forw': nx*(nx+nu),
            'Sx': nx*nx,
            'Su': nx*nu,
            'S_adj': nx+nu,
            'S_hess': (nx+nu)*(nx+nu),
            'S_algebraic': (nz)*(nx+nu),
        }

        self.settable = ['S_adj', 'T', 'x', 'u', 'xdot', 'z', 'p'] # S_forw


    def solve(self):
        """
        Solve the simulation problem with current input.
        """
        getattr(self.shared_lib, f"{self.model_name}_acados_sim_solve").argtypes = [c_void_p]
        getattr(self.shared_lib, f"{self.model_name}_acados_sim_solve").restype = c_int

        status = getattr(self.shared_lib, f"{self.model_name}_acados_sim_solve")(self.capsule)
        return status


    def get(self, field_):
        """
        Get the last solution of the solver.

            :param str field: string in ['x', 'u', 'z', 'S_forw', 'Sx', 'Su', 'S_adj', 'S_hess', 'S_algebraic']
        """
        field = field_
        field = field.encode('utf-8')

        if field_ in self.gettable.keys():

            # allocate array
            dims = self.gettable[field_]
            out = np.ascontiguousarray(np.zeros((dims,)), dtype=np.float64)
            out_data = cast(out.ctypes.data, POINTER(c_double))

            self.shared_lib.sim_out_get.argtypes = [c_void_p, c_void_p, c_void_p, c_char_p, c_void_p]
            self.shared_lib.sim_out_get(self.sim_config, self.sim_dims, self.sim_out, field, out_data)

            if field_ == 'S_forw':
                nu = self.sim_struct.dims.nu
                nx = self.sim_struct.dims.nx
                out = out.reshape(nx, nx+nu, order='F')
            elif field_ == 'Sx':
                nx = self.sim_struct.dims.nx
                out = out.reshape(nx, nx, order='F')
            elif field_ == 'Su':
                nx = self.sim_struct.dims.nx
                nu = self.sim_struct.dims.nu
                out = out.reshape(nx, nu, order='F')
            elif field_ == 'S_hess':
                nx = self.sim_struct.dims.nx
                nu = self.sim_struct.dims.nu
                out = out.reshape(nx+nu, nx+nu, order='F')
            elif field_ == 'S_algebraic':
                nx = self.sim_struct.dims.nx
                nu = self.sim_struct.dims.nu
                nz = self.sim_struct.dims.nz
                out = out.reshape(nz, nx+nu, order='F')
        else:
            raise Exception(f'AcadosSimSolver.get(): Unknown field {field_},' \
                f' available fields are {", ".join(self.gettable.keys())}')

        return out


    def set(self, field_, value_):
        """
        Set numerical data inside the solver.

            :param field: string in ['p', 'S_adj', 'T', 'x', 'u', 'xdot', 'z']
            :param value: the value with appropriate size.
        """
        # cast value_ to avoid conversion issues
        if isinstance(value_, (float, int)):
            value_ = np.array([value_])

        value_ = value_.astype(float)
        value_data = cast(value_.ctypes.data, POINTER(c_double))
        value_data_p = cast((value_data), c_void_p)

        field = field_
        field = field.encode('utf-8')

        # treat parameters separately
        if field_ == 'p':
            model_name = self.sim_struct.model.name
            getattr(self.shared_lib, f"{model_name}_acados_sim_update_params").argtypes = [c_void_p, POINTER(c_double), c_int]
            value_data = cast(value_.ctypes.data, POINTER(c_double))
            getattr(self.shared_lib, f"{model_name}_acados_sim_update_params")(self.capsule, value_data, value_.shape[0])
            return
        else:
            # dimension check
            dims = np.ascontiguousarray(np.zeros((2,)), dtype=np.intc)
            dims_data = cast(dims.ctypes.data, POINTER(c_int))

            self.shared_lib.sim_dims_get_from_attr.argtypes = [c_void_p, c_void_p, c_char_p, POINTER(c_int)]
            self.shared_lib.sim_dims_get_from_attr(self.sim_config, self.sim_dims, field, dims_data)

            value_ = np.ravel(value_, order='F')

            value_shape = value_.shape
            if len(value_shape) == 1:
                value_shape = (value_shape[0], 0)

            if value_shape != tuple(dims):
                raise Exception('AcadosSimSolver.set(): mismatching dimension' \
                    ' for field "{}" with dimension {} (you have {})'.format(field_, tuple(dims), value_shape))

        # set
        if field_ in ['xdot', 'z']:
            self.shared_lib.sim_solver_set.argtypes = [c_void_p, c_char_p, c_void_p]
            self.shared_lib.sim_solver_set(self.sim_solver, field, value_data_p)
        elif field_ in self.settable:
            self.shared_lib.sim_in_set.argtypes = [c_void_p, c_void_p, c_void_p, c_char_p, c_void_p]
            self.shared_lib.sim_in_set(self.sim_config, self.sim_dims, self.sim_in, field, value_data_p)
        else:
            raise Exception(f'AcadosSimSolver.set(): Unknown field {field_},' \
                f' available fields are {", ".join(self.settable)}')

        return


    def __del__(self):

        if self.solver_created:
            getattr(self.shared_lib, f"{self.model_name}_acados_sim_free").argtypes = [c_void_p]
            getattr(self.shared_lib, f"{self.model_name}_acados_sim_free").restype = c_int
            getattr(self.shared_lib, f"{self.model_name}_acados_sim_free")(self.capsule)

            getattr(self.shared_lib, f"{self.model_name}_acados_sim_solver_free_capsule").argtypes = [c_void_p]
            getattr(self.shared_lib, f"{self.model_name}_acados_sim_solver_free_capsule").restype = c_int
            getattr(self.shared_lib, f"{self.model_name}_acados_sim_solver_free_capsule")(self.capsule)

            try:
                self.dlclose(self.shared_lib._handle)
            except:
                pass
acados support (#21319) * acados support * add pyextra to python path * x86 libs 4 years ago			`# -- coding: future_fstrings --`
			`#`
			`# Copyright 2019 Gianluca Frison, Dimitris Kouzoupis, Robin Verschueren,`
			`# Andrea Zanelli, Niels van Duijkeren, Jonathan Frey, Tommaso Sartor,`
			`# Branimir Novoselnik, Rien Quirynen, Rezart Qelibari, Dang Doan,`
			`# Jonas Koenemann, Yutao Chen, Tobias Schöls, Jonas Schlagenhauf, Moritz Diehl`
			`#`
			`# This file is part of acados.`
			`#`
			`# The 2-Clause BSD License`
			`#`
			`# Redistribution and use in source and binary forms, with or without`
			`# modification, are permitted provided that the following conditions are met:`
			`#`
			`# 1. Redistributions of source code must retain the above copyright notice,`
			`# this list of conditions and the following disclaimer.`
			`#`
			`# 2. Redistributions in binary form must reproduce the above copyright notice,`
			`# this list of conditions and the following disclaimer in the documentation`
			`# and/or other materials provided with the distribution.`
			`#`
			`# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"`
			`# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE`
			`# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE`
			`# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE`
			`# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR`
			`# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF`
			`# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS`
			`# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN`
			`# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)`
			`# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE`
			`# POSSIBILITY OF SUCH DAMAGE.;`
			`#`

			`import sys, os, json`

			`import numpy as np`

			`from ctypes import *`
			`from copy import deepcopy`

			`from .generate_c_code_explicit_ode import generate_c_code_explicit_ode`
			`from .generate_c_code_implicit_ode import generate_c_code_implicit_ode`
			`from .generate_c_code_gnsf import generate_c_code_gnsf`
			`from .acados_sim import AcadosSim`
			`from .acados_ocp import AcadosOcp`
			`from .acados_model import acados_model_strip_casadi_symbolics`
			`from .utils import is_column, render_template, format_class_dict, np_array_to_list,\`
cython wrapper for acados (#22784) * cython wrapper for acados * fix building * sconscript cleanup * no cython numpy * cleanup * upgrade build script * try without slices * new acados commit * c3 update acados libs * c2 libs * make faster * undo profiling * fix build * somewhat faster * tryout cost_set_slice * Revert "tryout cost_set_slice" This reverts commit d358d93a133270e4edab9e7c07ffb6f577c52bd6. * cleanup * undo t_renderer change Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`make_model_consistent, set_up_imported_gnsf_model, get_python_interface_path`
acados support (#21319) * acados support * add pyextra to python path * x86 libs 4 years ago

			`def make_sim_dims_consistent(acados_sim):`
			`dims = acados_sim.dims`
			`model = acados_sim.model`
			`# nx`
			`if is_column(model.x):`
			`dims.nx = model.x.shape[0]`
			`else:`
			`raise Exception("model.x should be column vector!")`

			`# nu`
			`if is_column(model.u):`
			`dims.nu = model.u.shape[0]`
			`elif model.u == None or model.u == []:`
			`dims.nu = 0`
			`else:`
			`raise Exception("model.u should be column vector or None!")`

			`# nz`
			`if is_column(model.z):`
			`dims.nz = model.z.shape[0]`
			`elif model.z == None or model.z == []:`
			`dims.nz = 0`
			`else:`
			`raise Exception("model.z should be column vector or None!")`

			`# np`
			`if is_column(model.p):`
			`dims.np = model.p.shape[0]`
			`elif model.p == None or model.p == []:`
			`dims.np = 0`
			`else:`
			`raise Exception("model.p should be column vector or None!")`


			`def get_sim_layout():`
cython wrapper for acados (#22784) * cython wrapper for acados * fix building * sconscript cleanup * no cython numpy * cleanup * upgrade build script * try without slices * new acados commit * c3 update acados libs * c2 libs * make faster * undo profiling * fix build * somewhat faster * tryout cost_set_slice * Revert "tryout cost_set_slice" This reverts commit d358d93a133270e4edab9e7c07ffb6f577c52bd6. * cleanup * undo t_renderer change Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`python_interface_path = get_python_interface_path()`
			`abs_path = os.path.join(python_interface_path, 'acados_sim_layout.json')`
			`with open(abs_path, 'r') as f:`
acados support (#21319) * acados support * add pyextra to python path * x86 libs 4 years ago			`sim_layout = json.load(f)`
			`return sim_layout`


			`def sim_formulation_json_dump(acados_sim, json_file='acados_sim.json'):`
			`# Load acados_sim structure description`
			`sim_layout = get_sim_layout()`

			`# Copy input sim object dictionary`
			`sim_dict = dict(deepcopy(acados_sim).__dict__)`

			`for key, v in sim_layout.items():`
			`# skip non dict attributes`
			`if not isinstance(v, dict): continue`
			`# Copy sim object attributes dictionaries`
			`sim_dict[key]=dict(getattr(acados_sim, key).__dict__)`

			`sim_dict['model'] = acados_model_strip_casadi_symbolics(sim_dict['model'])`
			`sim_json = format_class_dict(sim_dict)`

			`with open(json_file, 'w') as f:`
			`json.dump(sim_json, f, default=np_array_to_list, indent=4, sort_keys=True)`


			`def sim_render_templates(json_file, model_name, code_export_dir):`
			`# setting up loader and environment`
cython wrapper for acados (#22784) * cython wrapper for acados * fix building * sconscript cleanup * no cython numpy * cleanup * upgrade build script * try without slices * new acados commit * c3 update acados libs * c2 libs * make faster * undo profiling * fix build * somewhat faster * tryout cost_set_slice * Revert "tryout cost_set_slice" This reverts commit d358d93a133270e4edab9e7c07ffb6f577c52bd6. * cleanup * undo t_renderer change Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`json_path = os.path.join(os.getcwd(), json_file)`
acados support (#21319) * acados support * add pyextra to python path * x86 libs 4 years ago
			`if not os.path.exists(json_path):`
			`raise Exception(f"{json_path} not found!")`

			`template_dir = code_export_dir`

			`## Render templates`
			`in_file = 'acados_sim_solver.in.c'`
			`out_file = f'acados_sim_solver_{model_name}.c'`
			`render_template(in_file, out_file, template_dir, json_path)`

			`in_file = 'acados_sim_solver.in.h'`
			`out_file = f'acados_sim_solver_{model_name}.h'`
			`render_template(in_file, out_file, template_dir, json_path)`

			`in_file = 'Makefile.in'`
			`out_file = f'Makefile'`
			`render_template(in_file, out_file, template_dir, json_path)`

			`in_file = 'main_sim.in.c'`
			`out_file = f'main_sim_{model_name}.c'`
			`render_template(in_file, out_file, template_dir, json_path)`

			`## folder model`
cython wrapper for acados (#22784) * cython wrapper for acados * fix building * sconscript cleanup * no cython numpy * cleanup * upgrade build script * try without slices * new acados commit * c3 update acados libs * c2 libs * make faster * undo profiling * fix build * somewhat faster * tryout cost_set_slice * Revert "tryout cost_set_slice" This reverts commit d358d93a133270e4edab9e7c07ffb6f577c52bd6. * cleanup * undo t_renderer change Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`template_dir = os.path.join(code_export_dir, model_name + '_model')`
acados support (#21319) * acados support * add pyextra to python path * x86 libs 4 years ago
			`in_file = 'model.in.h'`
			`out_file = f'{model_name}_model.h'`
			`render_template(in_file, out_file, template_dir, json_path)`


			`def sim_generate_casadi_functions(acados_sim):`
			`model = acados_sim.model`
			`model = make_model_consistent(model)`

			`integrator_type = acados_sim.solver_options.integrator_type`

			`opts = dict(generate_hess = acados_sim.solver_options.sens_hess,`
			`code_export_directory = acados_sim.code_export_directory)`
			`# generate external functions`
			`if integrator_type == 'ERK':`
			`generate_c_code_explicit_ode(model, opts)`
			`elif integrator_type == 'IRK':`
			`generate_c_code_implicit_ode(model, opts)`
			`elif integrator_type == 'GNSF':`
			`generate_c_code_gnsf(model, opts)`

			`class AcadosSimSolver:`
			`"""`
			`Class to interact with the acados integrator C object.`

			:param acados_sim: type :py:class:`acados_template.acados_ocp.AcadosOcp` (takes values to generate an instance :py:class:`acados_template.acados_sim.AcadosSim`) or :py:class:`acados_template.acados_sim.AcadosSim`
			`:param json_file: Default: 'acados_sim.json'`
			`:param build: Default: True`
			`"""`
			`def __init__(self, acados_sim_, json_file='acados_sim.json', build=True):`

			`self.solver_created = False`

			`if isinstance(acados_sim_, AcadosOcp):`
			`# set up acados_sim_`
			`acados_sim = AcadosSim()`
			`acados_sim.model = acados_sim_.model`
			`acados_sim.dims.nx = acados_sim_.dims.nx`
			`acados_sim.dims.nu = acados_sim_.dims.nu`
			`acados_sim.dims.nz = acados_sim_.dims.nz`
			`acados_sim.dims.np = acados_sim_.dims.np`
			`acados_sim.solver_options.integrator_type = acados_sim_.solver_options.integrator_type`
			`acados_sim.code_export_directory = acados_sim_.code_export_directory`

			`elif isinstance(acados_sim_, AcadosSim):`
			`acados_sim = acados_sim_`

			`acados_sim.__problem_class = 'SIM'`

			`model_name = acados_sim.model.name`
			`make_sim_dims_consistent(acados_sim)`

			`# reuse existing json and casadi functions, when creating integrator from ocp`
			`if isinstance(acados_sim_, AcadosSim):`
			`if acados_sim.solver_options.integrator_type == 'GNSF':`
			`set_up_imported_gnsf_model(acados_sim)`

			`sim_generate_casadi_functions(acados_sim)`
			`sim_formulation_json_dump(acados_sim, json_file)`

			`code_export_dir = acados_sim.code_export_directory`
			`if build:`
			`# render templates`
			`sim_render_templates(json_file, model_name, code_export_dir)`

			`## Compile solver`
			`cwd = os.getcwd()`
			`os.chdir(code_export_dir)`
			`os.system('make sim_shared_lib')`
			`os.chdir(cwd)`

			`self.sim_struct = acados_sim`
			`model_name = self.sim_struct.model.name`
			`self.model_name = model_name`

			`# Ctypes`
			`shared_lib = f'{code_export_dir}/libacados_sim_solver_{model_name}.so'`
			`self.shared_lib = CDLL(shared_lib)`


			`# create capsule`
			`getattr(self.shared_lib, f"{model_name}_acados_sim_solver_create_capsule").restype = c_void_p`
			`self.capsule = getattr(self.shared_lib, f"{model_name}_acados_sim_solver_create_capsule")()`

			`# create solver`
			`getattr(self.shared_lib, f"{model_name}_acados_sim_create").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{model_name}_acados_sim_create").restype = c_int`
			`assert getattr(self.shared_lib, f"{model_name}_acados_sim_create")(self.capsule)==0`
			`self.solver_created = True`

			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_opts").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_opts").restype = c_void_p`
			`self.sim_opts = getattr(self.shared_lib, f"{model_name}_acados_get_sim_opts")(self.capsule)`

			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_dims").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_dims").restype = c_void_p`
			`self.sim_dims = getattr(self.shared_lib, f"{model_name}_acados_get_sim_dims")(self.capsule)`

			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_config").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_config").restype = c_void_p`
			`self.sim_config = getattr(self.shared_lib, f"{model_name}_acados_get_sim_config")(self.capsule)`

			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_out").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_out").restype = c_void_p`
			`self.sim_out = getattr(self.shared_lib, f"{model_name}_acados_get_sim_out")(self.capsule)`

			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_in").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_in").restype = c_void_p`
			`self.sim_in = getattr(self.shared_lib, f"{model_name}_acados_get_sim_in")(self.capsule)`

			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_solver").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{model_name}_acados_get_sim_solver").restype = c_void_p`
			`self.sim_solver = getattr(self.shared_lib, f"{model_name}_acados_get_sim_solver")(self.capsule)`

			`nu = self.sim_struct.dims.nu`
			`nx = self.sim_struct.dims.nx`
			`nz = self.sim_struct.dims.nz`
			`self.gettable = {`
			`'x': nx,`
			`'xn': nx,`
			`'u': nu,`
			`'z': nz,`
			`'S_forw': nx*(nx+nu),`
			`'Sx': nx*nx,`
			`'Su': nx*nu,`
			`'S_adj': nx+nu,`
			`'S_hess': (nx+nu)*(nx+nu),`
			`'S_algebraic': (nz)*(nx+nu),`
			`}`

			`self.settable = ['S_adj', 'T', 'x', 'u', 'xdot', 'z', 'p'] # S_forw`


			`def solve(self):`
			`"""`
			`Solve the simulation problem with current input.`
			`"""`
			`getattr(self.shared_lib, f"{self.model_name}_acados_sim_solve").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{self.model_name}_acados_sim_solve").restype = c_int`

			`status = getattr(self.shared_lib, f"{self.model_name}_acados_sim_solve")(self.capsule)`
			`return status`


			`def get(self, field_):`
			`"""`
			`Get the last solution of the solver.`

			`:param str field: string in ['x', 'u', 'z', 'S_forw', 'Sx', 'Su', 'S_adj', 'S_hess', 'S_algebraic']`
			`"""`
			`field = field_`
			`field = field.encode('utf-8')`

			`if field_ in self.gettable.keys():`

			`# allocate array`
			`dims = self.gettable[field_]`
			`out = np.ascontiguousarray(np.zeros((dims,)), dtype=np.float64)`
			`out_data = cast(out.ctypes.data, POINTER(c_double))`

			`self.shared_lib.sim_out_get.argtypes = [c_void_p, c_void_p, c_void_p, c_char_p, c_void_p]`
			`self.shared_lib.sim_out_get(self.sim_config, self.sim_dims, self.sim_out, field, out_data)`

			`if field_ == 'S_forw':`
			`nu = self.sim_struct.dims.nu`
			`nx = self.sim_struct.dims.nx`
			`out = out.reshape(nx, nx+nu, order='F')`
			`elif field_ == 'Sx':`
			`nx = self.sim_struct.dims.nx`
			`out = out.reshape(nx, nx, order='F')`
			`elif field_ == 'Su':`
			`nx = self.sim_struct.dims.nx`
			`nu = self.sim_struct.dims.nu`
			`out = out.reshape(nx, nu, order='F')`
			`elif field_ == 'S_hess':`
			`nx = self.sim_struct.dims.nx`
			`nu = self.sim_struct.dims.nu`
			`out = out.reshape(nx+nu, nx+nu, order='F')`
			`elif field_ == 'S_algebraic':`
			`nx = self.sim_struct.dims.nx`
			`nu = self.sim_struct.dims.nu`
			`nz = self.sim_struct.dims.nz`
			`out = out.reshape(nz, nx+nu, order='F')`
			`else:`
			`raise Exception(f'AcadosSimSolver.get(): Unknown field {field_},' \`
			`f' available fields are {", ".join(self.gettable.keys())}')`

			`return out`


			`def set(self, field_, value_):`
			`"""`
			`Set numerical data inside the solver.`

			`:param field: string in ['p', 'S_adj', 'T', 'x', 'u', 'xdot', 'z']`
			`:param value: the value with appropriate size.`
			`"""`
			`# cast value_ to avoid conversion issues`
			`if isinstance(value_, (float, int)):`
			`value_ = np.array([value_])`

			`value_ = value_.astype(float)`
			`value_data = cast(value_.ctypes.data, POINTER(c_double))`
			`value_data_p = cast((value_data), c_void_p)`

			`field = field_`
			`field = field.encode('utf-8')`

			`# treat parameters separately`
			`if field_ == 'p':`
			`model_name = self.sim_struct.model.name`
			`getattr(self.shared_lib, f"{model_name}_acados_sim_update_params").argtypes = [c_void_p, POINTER(c_double), c_int]`
			`value_data = cast(value_.ctypes.data, POINTER(c_double))`
			`getattr(self.shared_lib, f"{model_name}_acados_sim_update_params")(self.capsule, value_data, value_.shape[0])`
			`return`
			`else:`
			`# dimension check`
			`dims = np.ascontiguousarray(np.zeros((2,)), dtype=np.intc)`
			`dims_data = cast(dims.ctypes.data, POINTER(c_int))`

			`self.shared_lib.sim_dims_get_from_attr.argtypes = [c_void_p, c_void_p, c_char_p, POINTER(c_int)]`
			`self.shared_lib.sim_dims_get_from_attr(self.sim_config, self.sim_dims, field, dims_data)`

			`value_ = np.ravel(value_, order='F')`

			`value_shape = value_.shape`
			`if len(value_shape) == 1:`
			`value_shape = (value_shape[0], 0)`

			`if value_shape != tuple(dims):`
			`raise Exception('AcadosSimSolver.set(): mismatching dimension' \`
			`' for field "{}" with dimension {} (you have {})'.format(field_, tuple(dims), value_shape))`

			`# set`
			`if field_ in ['xdot', 'z']:`
			`self.shared_lib.sim_solver_set.argtypes = [c_void_p, c_char_p, c_void_p]`
			`self.shared_lib.sim_solver_set(self.sim_solver, field, value_data_p)`
			`elif field_ in self.settable:`
			`self.shared_lib.sim_in_set.argtypes = [c_void_p, c_void_p, c_void_p, c_char_p, c_void_p]`
			`self.shared_lib.sim_in_set(self.sim_config, self.sim_dims, self.sim_in, field, value_data_p)`
			`else:`
			`raise Exception(f'AcadosSimSolver.set(): Unknown field {field_},' \`
			`f' available fields are {", ".join(self.settable)}')`

			`return`


			`def __del__(self):`

			`if self.solver_created:`
			`getattr(self.shared_lib, f"{self.model_name}_acados_sim_free").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{self.model_name}_acados_sim_free").restype = c_int`
			`getattr(self.shared_lib, f"{self.model_name}_acados_sim_free")(self.capsule)`

			`getattr(self.shared_lib, f"{self.model_name}_acados_sim_solver_free_capsule").argtypes = [c_void_p]`
			`getattr(self.shared_lib, f"{self.model_name}_acados_sim_solver_free_capsule").restype = c_int`
			`getattr(self.shared_lib, f"{self.model_name}_acados_sim_solver_free_capsule")(self.capsule)`

			`try:`
			`self.dlclose(self.shared_lib._handle)`
			`except:`
			`pass`