X-Git-Url: http://info.iut-bm.univ-fcomte.fr/pub/gitweb/simgrid.git/blobdiff_plain/65e200cd6cca5e000376f689bd6b51d0a1fa886b..9095ff3989b9c77af19e932992781ad6e88e1e91:/teshsuite/surf/lmm_usage/lmm_usage.cpp diff --git a/teshsuite/surf/lmm_usage/lmm_usage.cpp b/teshsuite/surf/lmm_usage/lmm_usage.cpp index 0a9aaf8382..72f2c890c3 100644 --- a/teshsuite/surf/lmm_usage/lmm_usage.cpp +++ b/teshsuite/surf/lmm_usage/lmm_usage.cpp @@ -1,14 +1,13 @@ /* A few tests for the maxmin library */ -/* Copyright (c) 2007-2017. The SimGrid Team. - * All rights reserved. */ +/* Copyright (c) 2007-2019. The SimGrid Team. All rights reserved. */ /* This program is free software; you can redistribute it and/or modify it * under the terms of the license (GNU LGPL) which comes with this package. */ #include "simgrid/msg.h" +#include "src/kernel/lmm/maxmin.hpp" #include "src/surf/surf_interface.hpp" -#include "surf/maxmin.hpp" #include "xbt/log.h" #include "xbt/module.h" #include "xbt/sysdep.h" @@ -17,7 +16,7 @@ XBT_LOG_NEW_DEFAULT_CATEGORY(surf_test, "Messages specific for surf example"); -using namespace simgrid::surf; +namespace lmm = simgrid::kernel::lmm; #define PRINT_VAR(var) XBT_DEBUG(#var " = %g", (var)->get_value()) #define SHOW_EXPR(expr) XBT_DEBUG(#expr " = %g",expr) @@ -26,90 +25,25 @@ using namespace simgrid::surf; /* ==l1== L2 ==L3== */ /* ------ */ -enum method_t { MAXMIN, LAGRANGE_RENO, LAGRANGE_VEGAS }; - -static double dichotomy(double func(double), double min, double max, double min_error) -{ - double overall_error = 2 * min_error; - - double min_func = func(min); - double max_func = func(max); - - if ((min_func > 0 && max_func > 0)) - return min - 1.0; - if ((min_func < 0 && max_func < 0)) - return max + 1.0; - if ((min_func > 0 && max_func < 0)) - abort(); - - SHOW_EXPR(min_error); - - while (overall_error > min_error) { - SHOW_EXPR(overall_error); - xbt_assert(min_func <= 0 || max_func <= 0); - xbt_assert(min_func >= 0 || max_func >= 0); - xbt_assert(min_func <= 0 || max_func >= 0); - - SHOW_EXPR(min); - SHOW_EXPR(min_func); - SHOW_EXPR(max); - SHOW_EXPR(max_func); - - double middle = (max + min) / 2.0; - if (fabs(min - middle) < 1e-12 || fabs(max - middle) < 1e-12) { - break; - } - double middle_func = func(middle); - SHOW_EXPR(middle); - SHOW_EXPR(middle_func); - - if (middle_func < 0) { - min = middle; - min_func = middle_func; - overall_error = max_func - middle_func; - } else if (middle_func > 0) { - max = middle; - max_func = middle_func; - overall_error = middle_func - min_func; - } else { - overall_error = 0; - } - } - return ((min + max) / 2.0); -} - -double a_test_1 = 0; -double b_test_1 = 0; -static double diff_lagrange_test_1(double x) -{ - return -(3 / (1 + 3 * x * x / 2) - 3 / (2 * (3 * (a_test_1 - x) * (a_test_1 - x) / 2 + 1)) + - 3 / (2 * (3 * (b_test_1 - a_test_1 + x) * (b_test_1 - a_test_1 + x) / 2 + 1))); -} - -static void test1(method_t method) +static void test1() { double a = 1.0; double b = 10.0; - if (method == LAGRANGE_VEGAS) - lmm_set_default_protocol_function(func_vegas_f, func_vegas_fp, func_vegas_fpi); - else if (method == LAGRANGE_RENO) - lmm_set_default_protocol_function(func_reno_f, func_reno_fpi, func_reno_fpi); - - lmm_system_t Sys = new s_lmm_system_t(true); - lmm_constraint_t L1 = Sys->constraint_new(nullptr, a); - lmm_constraint_t L2 = Sys->constraint_new(nullptr, b); - lmm_constraint_t L3 = Sys->constraint_new(nullptr, a); + lmm::System* Sys = lmm::make_new_maxmin_system(false); + lmm::Constraint* L1 = Sys->constraint_new(nullptr, a); + lmm::Constraint* L2 = Sys->constraint_new(nullptr, b); + lmm::Constraint* L3 = Sys->constraint_new(nullptr, a); - lmm_variable_t R_1_2_3 = Sys->variable_new(nullptr, 1.0, -1.0, 3); - lmm_variable_t R_1 = Sys->variable_new(nullptr, 1.0, -1.0, 1); - lmm_variable_t R_2 = Sys->variable_new(nullptr, 1.0, -1.0, 1); - lmm_variable_t R_3 = Sys->variable_new(nullptr, 1.0, -1.0, 1); + lmm::Variable* R_1_2_3 = Sys->variable_new(nullptr, 1.0, -1.0, 3); + lmm::Variable* R_1 = Sys->variable_new(nullptr, 1.0, -1.0, 1); + lmm::Variable* R_2 = Sys->variable_new(nullptr, 1.0, -1.0, 1); + lmm::Variable* R_3 = Sys->variable_new(nullptr, 1.0, -1.0, 1); - Sys->update_variable_weight(R_1_2_3, 1.0); - Sys->update_variable_weight(R_1, 1.0); - Sys->update_variable_weight(R_2, 1.0); - Sys->update_variable_weight(R_3, 1.0); + Sys->update_variable_penalty(R_1_2_3, 1.0); + Sys->update_variable_penalty(R_1, 1.0); + Sys->update_variable_penalty(R_2, 1.0); + Sys->update_variable_penalty(R_3, 1.0); Sys->expand(L1, R_1_2_3, 1.0); Sys->expand(L2, R_1_2_3, 1.0); @@ -119,49 +53,7 @@ static void test1(method_t method) Sys->expand(L2, R_2, 1.0); Sys->expand(L3, R_3, 1.0); - if (method == MAXMIN) { - lmm_solve(Sys); - } else { - double x; - if (method == LAGRANGE_VEGAS) { - x = 3 * a / 4 - 3 * b / 8 + sqrt(9 * b * b + 4 * a * a - 4 * a * b) / 8; - /* Computed with mupad and D_f=1.0 */ - if (x > a) { - x = a; - } - if (x < 0) { - x = 0; - } - } else if (method == LAGRANGE_RENO) { - a_test_1 = a; - b_test_1 = b; - x = dichotomy(diff_lagrange_test_1, 0, a, 1e-13); - - if (x < 0) - x = 0; - if (x > a) - x = a; - } else { - xbt_die( "Invalid method"); - } - - lagrange_solve(Sys); - - double max_deviation = 0.0; - max_deviation = std::max(max_deviation, fabs(R_1->get_value() - x)); - max_deviation = std::max(max_deviation, fabs(R_3->get_value() - x)); - max_deviation = std::max(max_deviation, fabs(R_2->get_value() - (b - a + x))); - max_deviation = std::max(max_deviation, fabs(R_1_2_3->get_value() - (a - x))); - - if (max_deviation > 0.00001) { // Legacy value used in lagrange.c - XBT_WARN("Max Deviation from optimal solution : %g", max_deviation); - XBT_WARN("Found x = %1.20f", x); - XBT_WARN("Deviation from optimal solution (R_1 = %g): %1.20f", x, R_1->get_value() - x); - XBT_WARN("Deviation from optimal solution (R_2 = %g): %1.20f", b - a + x, R_2->get_value() - (b - a + x)); - XBT_WARN("Deviation from optimal solution (R_3 = %g): %1.20f", x, R_3->get_value() - x); - XBT_WARN("Deviation from optimal solution (R_1_2_3 = %g): %1.20f", a - x, R_1_2_3->get_value() - (a - x)); - } - } + Sys->solve(); PRINT_VAR(R_1_2_3); PRINT_VAR(R_1); @@ -175,33 +67,23 @@ static void test1(method_t method) delete Sys; } -static void test2(method_t method) +static void test2() { - if (method == LAGRANGE_VEGAS) - lmm_set_default_protocol_function(func_vegas_f, func_vegas_fp, func_vegas_fpi); - if (method == LAGRANGE_RENO) - lmm_set_default_protocol_function(func_reno_f, func_reno_fp, func_reno_fpi); + lmm::System* Sys = lmm::make_new_maxmin_system(false); - lmm_system_t Sys = new s_lmm_system_t(true); - lmm_constraint_t CPU1 = Sys->constraint_new(nullptr, 200.0); - lmm_constraint_t CPU2 = Sys->constraint_new(nullptr, 100.0); + lmm::Constraint* CPU1 = Sys->constraint_new(nullptr, 200.0); + lmm::Constraint* CPU2 = Sys->constraint_new(nullptr, 100.0); - lmm_variable_t T1 = Sys->variable_new(nullptr, 1.0, -1.0, 1); - lmm_variable_t T2 = Sys->variable_new(nullptr, 1.0, -1.0, 1); + lmm::Variable* T1 = Sys->variable_new(nullptr, 1.0, -1.0, 1); + lmm::Variable* T2 = Sys->variable_new(nullptr, 1.0, -1.0, 1); - Sys->update_variable_weight(T1, 1.0); - Sys->update_variable_weight(T2, 1.0); + Sys->update_variable_penalty(T1, 1.0); + Sys->update_variable_penalty(T2, 1.0); Sys->expand(CPU1, T1, 1.0); Sys->expand(CPU2, T2, 1.0); - if (method == MAXMIN) { - lmm_solve(Sys); - } else if (method == LAGRANGE_VEGAS || method == LAGRANGE_RENO) { - lagrange_solve(Sys); - } else { - xbt_die("Invalid method"); - } + Sys->solve(); PRINT_VAR(T1); PRINT_VAR(T2); @@ -211,7 +93,7 @@ static void test2(method_t method) delete Sys; } -static void test3(method_t method) +static void test3() { int flows = 11; int links = 10; @@ -248,23 +130,18 @@ static void test3(method_t method) A[13][14] = 1.0; A[14][15] = 1.0; - if (method == LAGRANGE_VEGAS) - lmm_set_default_protocol_function(func_vegas_f, func_vegas_fp, func_vegas_fpi); - if (method == LAGRANGE_RENO) - lmm_set_default_protocol_function(func_reno_f, func_reno_fp, func_reno_fpi); - - lmm_system_t Sys = new s_lmm_system_t(true); + lmm::System* Sys = lmm::make_new_maxmin_system(false); /* Creates the constraints */ - lmm_constraint_t* tmp_cnst = new lmm_constraint_t[15]; + lmm::Constraint** tmp_cnst = new lmm::Constraint*[15]; for (int i = 0; i < 15; i++) tmp_cnst[i] = Sys->constraint_new(nullptr, B[i]); /* Creates the variables */ - lmm_variable_t* tmp_var = new lmm_variable_t[16]; + lmm::Variable** tmp_var = new lmm::Variable*[16]; for (int j = 0; j < 16; j++) { tmp_var[j] = Sys->variable_new(nullptr, 1.0, -1.0, 15); - Sys->update_variable_weight(tmp_var[j], 1.0); + Sys->update_variable_penalty(tmp_var[j], 1.0); } /* Link constraints and variables */ @@ -273,15 +150,7 @@ static void test3(method_t method) if (A[i][j]) Sys->expand(tmp_cnst[i], tmp_var[j], 1.0); - if (method == MAXMIN) { - lmm_solve(Sys); - } else if (method == LAGRANGE_VEGAS) { - lagrange_solve(Sys); - } else if (method == LAGRANGE_RENO) { - lagrange_solve(Sys); - } else { - xbt_die("Invalid method"); - } + Sys->solve(); for (int j = 0; j < 16; j++) PRINT_VAR(tmp_var[j]); @@ -299,26 +168,14 @@ static void test3(method_t method) int main(int argc, char** argv) { MSG_init(&argc, argv); - XBT_INFO("***** Test 1 (Max-Min)"); - test1(MAXMIN); - XBT_INFO("***** Test 1 (Lagrange - Vegas)"); - test1(LAGRANGE_VEGAS); - XBT_INFO("***** Test 1 (Lagrange - Reno)"); - test1(LAGRANGE_RENO); - - XBT_INFO("***** Test 2 (Max-Min)"); - test2(MAXMIN); - XBT_INFO("***** Test 2 (Lagrange - Vegas)"); - test2(LAGRANGE_VEGAS); - XBT_INFO("***** Test 2 (Lagrange - Reno)"); - test2(LAGRANGE_RENO); - - XBT_INFO("***** Test 3 (Max-Min)"); - test3(MAXMIN); - XBT_INFO("***** Test 3 (Lagrange - Vegas)"); - test3(LAGRANGE_VEGAS); - XBT_INFO("***** Test 3 (Lagrange - Reno)"); - test3(LAGRANGE_RENO); + XBT_INFO("***** Test 1"); + test1(); + + XBT_INFO("***** Test 2"); + test2(); + + XBT_INFO("***** Test 3"); + test3(); return 0; }