#
# 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 os
from casadi import *
from . utils import ALLOWED_CASADI_VERSIONS , is_empty , casadi_length , casadi_version_warning
def generate_c_code_constraint ( model , con_name , is_terminal , opts ) :
casadi_version = CasadiMeta . version ( )
casadi_opts = dict ( mex = False , casadi_int = ' int ' , casadi_real = ' double ' )
if casadi_version not in ( ALLOWED_CASADI_VERSIONS ) :
casadi_version_warning ( casadi_version )
# load constraint variables and expression
x = model . x
p = model . p
if isinstance ( x , casadi . MX ) :
symbol = MX . sym
else :
symbol = SX . sym
if is_terminal :
con_h_expr = model . con_h_expr_e
con_phi_expr = model . con_phi_expr_e
# create dummy u, z
u = symbol ( ' u ' , 0 , 0 )
z = symbol ( ' z ' , 0 , 0 )
else :
con_h_expr = model . con_h_expr
con_phi_expr = model . con_phi_expr
u = model . u
z = model . z
if ( not is_empty ( con_h_expr ) ) and ( not is_empty ( con_phi_expr ) ) :
raise Exception ( " acados: you can either have constraint_h, or constraint_phi, not both. " )
if not ( is_empty ( con_h_expr ) and is_empty ( con_phi_expr ) ) :
if is_empty ( con_h_expr ) :
constr_type = ' BGP '
else :
constr_type = ' BGH '
if is_empty ( p ) :
p = symbol ( ' p ' , 0 , 0 )
if is_empty ( z ) :
z = symbol ( ' z ' , 0 , 0 )
if not ( is_empty ( con_h_expr ) ) and opts [ ' generate_hess ' ] :
# multipliers for hessian
nh = casadi_length ( con_h_expr )
lam_h = symbol ( ' lam_h ' , nh , 1 )
# set up & change directory
code_export_dir = opts [ " code_export_directory " ]
if not os . path . exists ( code_export_dir ) :
os . makedirs ( code_export_dir )
cwd = os . getcwd ( )
os . chdir ( code_export_dir )
gen_dir = con_name + ' _constraints '
if not os . path . exists ( gen_dir ) :
os . mkdir ( gen_dir )
gen_dir_location = os . path . join ( ' . ' , gen_dir )
os . chdir ( gen_dir_location )
# export casadi functions
if constr_type == ' BGH ' :
if is_terminal :
fun_name = con_name + ' _constr_h_e_fun_jac_uxt_zt '
else :
fun_name = con_name + ' _constr_h_fun_jac_uxt_zt '
jac_ux_t = transpose ( jacobian ( con_h_expr , vertcat ( u , x ) ) )
jac_z_t = jacobian ( con_h_expr , z )
constraint_fun_jac_tran = Function ( fun_name , [ x , u , z , p ] , \
[ con_h_expr , jac_ux_t , jac_z_t ] )
constraint_fun_jac_tran . generate ( fun_name , casadi_opts )
if opts [ ' generate_hess ' ] :
if is_terminal :
fun_name = con_name + ' _constr_h_e_fun_jac_uxt_zt_hess '
else :
fun_name = con_name + ' _constr_h_fun_jac_uxt_zt_hess '
# adjoint
adj_ux = jtimes ( con_h_expr , vertcat ( u , x ) , lam_h , True )
# hessian
hess_ux = jacobian ( adj_ux , vertcat ( u , x ) )
adj_z = jtimes ( con_h_expr , z , lam_h , True )
hess_z = jacobian ( adj_z , z )
# set up functions
constraint_fun_jac_tran_hess = \
Function ( fun_name , [ x , u , lam_h , z , p ] , \
[ con_h_expr , jac_ux_t , hess_ux , jac_z_t , hess_z ] )
# generate C code
constraint_fun_jac_tran_hess . generate ( fun_name , casadi_opts )
if is_terminal :
fun_name = con_name + ' _constr_h_e_fun '
else :
fun_name = con_name + ' _constr_h_fun '
h_fun = Function ( fun_name , [ x , u , z , p ] , [ con_h_expr ] )
h_fun . generate ( fun_name , casadi_opts )
else : # BGP constraint
if is_terminal :
fun_name = con_name + ' _phi_e_constraint '
r = model . con_r_in_phi_e
con_r_expr = model . con_r_expr_e
else :
fun_name = con_name + ' _phi_constraint '
r = model . con_r_in_phi
con_r_expr = model . con_r_expr
nphi = casadi_length ( con_phi_expr )
con_phi_expr_x_u_z = substitute ( con_phi_expr , r , con_r_expr )
phi_jac_u = jacobian ( con_phi_expr_x_u_z , u )
phi_jac_x = jacobian ( con_phi_expr_x_u_z , x )
phi_jac_z = jacobian ( con_phi_expr_x_u_z , z )
hess = hessian ( con_phi_expr [ 0 ] , r ) [ 0 ]
for i in range ( 1 , nphi ) :
hess = vertcat ( hess , hessian ( con_phi_expr [ i ] , r ) [ 0 ] )
r_jac_u = jacobian ( con_r_expr , u )
r_jac_x = jacobian ( con_r_expr , x )
constraint_phi = \
Function ( fun_name , [ x , u , z , p ] , \
[ con_phi_expr_x_u_z , \
vertcat ( transpose ( phi_jac_u ) , \
transpose ( phi_jac_x ) ) , \
transpose ( phi_jac_z ) , \
hess , vertcat ( transpose ( r_jac_u ) , \
transpose ( r_jac_x ) ) ] )
constraint_phi . generate ( fun_name , casadi_opts )
# change directory back
os . chdir ( cwd )
return
