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RTOpPack: Extra C/C++ Code for Vector Reduction/Transformation Operators
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RTOpPack: Extra C/C++ Code for Vector Reduction/Transformation Operators
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00001 #if 0 00002 00003 // @HEADER 00004 // *********************************************************************** 00005 // 00006 // Moocho: Multi-functional Object-Oriented arCHitecture for Optimization 00007 // Copyright (2003) Sandia Corporation 00008 // 00009 // Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive 00010 // license for use of this work by or on behalf of the U.S. Government. 00011 // 00012 // Redistribution and use in source and binary forms, with or without 00013 // modification, are permitted provided that the following conditions are 00014 // met: 00015 // 00016 // 1. Redistributions of source code must retain the above copyright 00017 // notice, this list of conditions and the following disclaimer. 00018 // 00019 // 2. Redistributions in binary form must reproduce the above copyright 00020 // notice, this list of conditions and the following disclaimer in the 00021 // documentation and/or other materials provided with the distribution. 00022 // 00023 // 3. Neither the name of the Corporation nor the names of the 00024 // contributors may be used to endorse or promote products derived from 00025 // this software without specific prior written permission. 00026 // 00027 // THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY 00028 // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 00029 // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 00030 // PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL SANDIA CORPORATION OR THE 00031 // CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, 00032 // EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 00033 // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR 00034 // PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF 00035 // LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING 00036 // NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS 00037 // SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 00038 // 00039 // Questions? Contact Roscoe A. Bartlett (rabartl@sandia.gov) 00040 // 00041 // *********************************************************************** 00042 // @HEADER 00043 00044 // //////////////////////////////////////////////// 00045 // initRTOpStdOpsLibCpp.cpp 00046 00047 #include "RTOpPack_initRTOpStdOpsLibCpp.hpp" 00048 #include "RTOpPack_RTOpCPostMod.hpp" 00049 #include "Teuchos_AbstractFactoryStd.hpp" 00050 #include "RTOp_ROp_combined_nu_comp_err.h" 00051 #include "RTOp_ROp_max_rel_step.h" 00052 #include "RTOp_TOp_ele_wise_sqrt.h" 00053 #include "RTOp_ROp_comp_err_with_mu.h" 00054 #include "RTOp_ROp_max_step.h" 00055 #include "RTOp_TOp_force_in_bounds.h" 00056 #include "RTOp_ROp_dot_prod.h" 00057 #include "RTOp_ROp_norms.h" 00058 #include "RTOp_TOp_inv_of_difference.h" 00059 #include "RTOp_ROp_find_nan_inf.h" 00060 #include "RTOp_ROp_num_bounded.h" 00061 #include "RTOp_TOp_max_abs_vec_scalar.h" 00062 #include "RTOp_ROp_fraction_to_boundary.h" 00063 #include "RTOp_ROp_num_nonzeros.h" 00064 #include "RTOp_TOp_max_vec_scalar.h" 00065 #include "RTOp_ROp_fraction_to_zero_boundary.h" 00066 #include "RTOp_ROp_sum.h" 00067 #include "RTOp_ROp_sum_abs.h" 00068 #include "RTOp_TOp_multiplier_step.h" 00069 #include "RTOp_ROp_get_ele.h" 00070 #include "RTOp_TOp_add_scalar.h" 00071 #include "RTOp_TOp_random_vector.h" 00072 #include "RTOp_ROp_get_sub_vector.h" 00073 #include "RTOp_TOp_assign_scalar.h" 00074 #include "RTOp_TOp_scale_vector.h" 00075 #include "RTOp_ROp_log_bound_barrier.h" 00076 #include "RTOp_TOp_assign_vectors.h" 00077 #include "RTOp_TOp_set_ele.h" 00078 #include "RTOp_ROp_max_abs_ele.h" 00079 #include "RTOp_TOp_axpy.h" 00080 #include "RTOp_TOp_set_sub_vector.h" 00081 #include "RTOp_ROp_max.h" 00082 #include "RTOp_TOp_correct_multipliers.h" 00083 #include "RTOp_TOp_sign.h" 00084 #include "RTOp_ROp_max_inequ_viol.h" 00085 #include "RTOp_TOp_ele_wise_divide.h" 00086 #include "RTOp_ROp_max_near_feas_step.h" 00087 #include "RTOp_TOp_ele_wise_prod.h" 00088 00089 namespace { 00090 00091 void add_op_factory(RTOpPack::RTOpServer<RTOp_value_type> *op_server, const RTOp_RTOp_vtbl_t &op_vtbl ) 00092 { 00093 namespace mmp = MemMngPack; 00094 namespace rtop = RTOpPack; 00095 typedef Teuchos::AbstractFactoryStd<rtop::RTOp,rtop::RTOpC,rtop::RTOpCPostMod> OpFactory_t; 00096 op_server->add_op_factory( 00097 Teuchos::rcp( 00098 new OpFactory_t( 00099 rtop::RTOpCPostMod(&op_vtbl) 00100 ,Teuchos::AllocatorNew<rtop::RTOpC>() // RAB: 2003/10/03: MipsPro needs this *$&%^#&!!! 00101 ) 00102 ) 00103 ); 00104 } 00105 00106 } // namespace 00107 00108 void RTOpPack::initRTOpStdOpsLibCpp( RTOpPack::RTOpServer<RTOp_value_type> *op_server ) 00109 { 00110 namespace mmp = MemMngPack; 00111 typedef Teuchos::AbstractFactoryStd<RTOp,RTOpC,RTOpCPostMod> OpFactory_t; 00112 00113 add_op_factory(op_server,RTOp_ROp_combined_nu_comp_err_vtbl); 00114 add_op_factory(op_server,RTOp_ROp_combined_nu_comp_err_one_only_vtbl); 00115 add_op_factory(op_server,RTOp_ROp_comp_err_with_mu_vtbl); 00116 add_op_factory(op_server,RTOp_ROp_dot_prod_vtbl); 00117 add_op_factory(op_server,RTOp_ROp_find_nan_inf_vtbl); 00118 add_op_factory(op_server,RTOp_ROp_fraction_to_boundary_vtbl); 00119 add_op_factory(op_server,RTOp_ROp_fraction_to_zero_boundary_vtbl); 00120 add_op_factory(op_server,RTOp_ROp_get_ele_vtbl); 00121 add_op_factory(op_server,RTOp_ROp_get_sub_vector_vtbl); 00122 add_op_factory(op_server,RTOp_ROp_log_bound_barrier_vtbl); 00123 add_op_factory(op_server,RTOp_ROp_max_abs_ele_vtbl); 00124 add_op_factory(op_server,RTOp_ROp_max_vtbl); 00125 add_op_factory(op_server,RTOp_ROp_max_inequ_viol_vtbl); 00126 add_op_factory(op_server,RTOp_ROp_max_near_feas_step_vtbl); 00127 add_op_factory(op_server,RTOp_ROp_max_rel_step_vtbl); 00128 add_op_factory(op_server,RTOp_ROp_max_step_vtbl); 00129 add_op_factory(op_server,RTOp_ROp_norm_1_vtbl); 00130 add_op_factory(op_server,RTOp_ROp_norm_2_vtbl); 00131 add_op_factory(op_server,RTOp_ROp_norm_inf_vtbl); 00132 add_op_factory(op_server,RTOp_ROp_num_bounded_vtbl); 00133 add_op_factory(op_server,RTOp_ROp_num_nonzeros_vtbl); 00134 add_op_factory(op_server,RTOp_ROp_sum_vtbl); 00135 add_op_factory(op_server,RTOp_ROp_sum_abs_vtbl); 00136 add_op_factory(op_server,RTOp_TOp_add_scalar_vtbl); 00137 add_op_factory(op_server,RTOp_TOp_assign_scalar_vtbl); 00138 add_op_factory(op_server,RTOp_TOp_assign_vectors_vtbl); 00139 add_op_factory(op_server,RTOp_TOp_axpy_vtbl); 00140 add_op_factory(op_server,RTOp_TOp_Correct_Multipliers_vtbl); 00141 add_op_factory(op_server,RTOp_TOp_ele_wise_divide_vtbl); 00142 add_op_factory(op_server,RTOp_TOp_ele_wise_prod_vtbl); 00143 add_op_factory(op_server,RTOp_TOp_ele_wise_sqrt_vtbl); 00144 add_op_factory(op_server,RTOp_TOp_force_in_bounds_vtbl); 00145 add_op_factory(op_server,RTOp_TOp_force_in_bounds_buffer_vtbl); 00146 add_op_factory(op_server,RTOp_TOp_inv_of_difference_vtbl); 00147 add_op_factory(op_server,RTOp_TOp_max_abs_vec_scalar_vtbl); 00148 add_op_factory(op_server,RTOp_TOp_max_vec_scalar_vtbl); 00149 add_op_factory(op_server,RTOp_TOp_multiplier_step_vtbl); 00150 add_op_factory(op_server,RTOp_TOp_random_vector_vtbl); 00151 add_op_factory(op_server,RTOp_TOp_scale_vector_vtbl); 00152 add_op_factory(op_server,RTOp_TOp_set_ele_vtbl); 00153 add_op_factory(op_server,RTOp_TOp_set_sub_vector_vtbl); 00154 add_op_factory(op_server,RTOp_TOp_sign_vtbl); 00155 } 00156 00157 #endif // 0
1.7.6.1
