/external/ceres-solver/internal/ceres/ |
H A D | summary_utils.cc | 39 void SetSummaryFinalCost(Solver::Summary* summary) { argument 40 summary->final_cost = summary->initial_cost; 43 for (int i = 0; i < summary->iterations.size(); ++i) { 44 const IterationSummary& iteration_summary = summary->iterations[i]; 45 summary->final_cost = min(iteration_summary.cost, summary->final_cost); 49 void SummarizeGivenProgram(const Program& program, Solver::Summary* summary) { argument 50 summary->num_parameter_blocks = program.NumParameterBlocks(); 51 summary 57 SummarizeReducedProgram(const Program& program, Solver::Summary* summary) argument [all...] |
H A D | callbacks.cc | 47 const IterationSummary& summary) { 48 if (summary.step_is_successful) { 63 const IterationSummary& summary) { 70 summary.iteration, 71 summary.cost, 72 summary.cost_change, 73 summary.gradient_max_norm, 74 summary.step_norm, 75 summary.step_size, 76 summary 46 operator ()( const IterationSummary& summary) argument 62 operator ()( const IterationSummary& summary) argument [all...] |
H A D | sparse_normal_cholesky_solver.cc | 102 LinearSolver::Summary summary; local 105 summary = SolveImplUsingSuiteSparse(A, per_solve_options, x); 108 summary = SolveImplUsingCXSparse(A, per_solve_options, x); 111 summary = SolveImplUsingEigen(A, per_solve_options, x); 122 return summary; 131 LinearSolver::Summary summary; local 132 summary.num_iterations = 0; 133 summary.termination_type = LINEAR_SOLVER_FATAL_ERROR; 134 summary.message = 139 return summary; 228 LinearSolver::Summary summary; local 310 LinearSolver::Summary summary; local [all...] |
H A D | summary_utils.h | 42 void SummarizeGivenProgram(const Program& program, Solver::Summary* summary); 43 void SummarizeReducedProgram(const Program& program, Solver::Summary* summary); 44 void SetSummaryFinalCost(Solver::Summary* summary);
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H A D | conjugate_gradients_solver.cc | 76 LinearSolver::Summary summary; local 77 summary.termination_type = LINEAR_SOLVER_NO_CONVERGENCE; 78 summary.message = "Maximum number of iterations reached."; 79 summary.num_iterations = 0; 88 summary.termination_type = LINEAR_SOLVER_SUCCESS; 89 summary.message = "Convergence. |b| = 0."; 90 return summary; 105 summary.termination_type = LINEAR_SOLVER_SUCCESS; 106 summary.message = 108 return summary; [all...] |
H A D | minimizer.cc | 42 Solver::Summary* summary) { 54 summary->termination_type = USER_SUCCESS; 55 summary->message = "User callback returned SOLVER_TERMINATE_SUCCESSFULLY."; 56 VLOG_IF(1, is_not_silent) << "Terminating: " << summary->message; 59 summary->termination_type = USER_FAILURE; 60 summary->message = "User callback returned SOLVER_ABORT."; 61 VLOG_IF(1, is_not_silent) << "Terminating: " << summary->message; 40 RunCallbacks(const Minimizer::Options& options, const IterationSummary& iteration_summary, Solver::Summary* summary) argument
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H A D | line_search_minimizer.cc | 101 Solver::Summary* summary) { 110 summary->termination_type = NO_CONVERGENCE; 111 summary->num_successful_steps = 0; 112 summary->num_unsuccessful_steps = 0; 134 if (!Evaluate(evaluator, x, ¤t_state, &summary->message)) { 135 summary->termination_type = FAILURE; 136 summary->message = "Initial cost and jacobian evaluation failed. " 137 "More details: " + summary->message; 138 LOG_IF(WARNING, is_not_silent) << "Terminating: " << summary->message; 142 summary 99 Minimize(const Minimizer::Options& options, double* parameters, Solver::Summary* summary) argument [all...] |
H A D | schur_complement_solver.cc | 84 const LinearSolver::Summary summary = local 88 if (summary.termination_type == LINEAR_SOLVER_SUCCESS) { 93 return summary; 119 LinearSolver::Summary summary; local 120 summary.num_iterations = 0; 121 summary.termination_type = LINEAR_SOLVER_SUCCESS; 122 summary.message = "Success."; 131 return summary; 134 summary.num_iterations = 1; 142 summary 276 LinearSolver::Summary summary; local 383 LinearSolver::Summary summary; local 439 LinearSolver::Summary summary; local [all...] |
H A D | minimizer_test.cc | 42 virtual CallbackReturnType operator()(const IterationSummary& summary) { argument 65 virtual CallbackReturnType operator()(const IterationSummary& summary) { argument 75 Solver::Summary summary; local 76 Minimizer::RunCallbacks(minimizer_options, IterationSummary(), &summary); 77 EXPECT_EQ(summary.message, "User callback returned SOLVER_ABORT."); 83 virtual CallbackReturnType operator()(const IterationSummary& summary) { argument 93 Solver::Summary summary; local 94 Minimizer::RunCallbacks(minimizer_options, IterationSummary(), &summary); 95 EXPECT_EQ(summary.message,
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H A D | solver_test.cc | 76 virtual CallbackReturnType operator()(const IterationSummary& summary) { argument 101 Solver::Summary summary; local 106 Solve(options, &problem, &summary); 107 num_iterations = summary.num_successful_steps + 108 summary.num_unsuccessful_steps; 118 Solve(options, &problem, &summary); 119 num_iterations = summary.num_successful_steps + 120 summary.num_unsuccessful_steps; 166 Solver::Summary summary; local 167 Solve(options, &problem, &summary); 178 Solver::Summary summary; local 192 Solver::Summary summary; local 206 Solver::Summary summary; local 221 Solver::Summary summary; local 235 Solver::Summary summary; local [all...] |
H A D | dense_normal_cholesky_solver.cc | 96 LinearSolver::Summary summary; local 97 summary.num_iterations = 1; 98 summary.termination_type = LINEAR_SOLVER_SUCCESS; 103 summary.termination_type = LINEAR_SOLVER_FAILURE; 104 summary.message = "Eigen LLT decomposition failed."; 106 summary.termination_type = LINEAR_SOLVER_SUCCESS; 107 summary.message = "Success."; 112 return summary; 155 LinearSolver::Summary summary; local 156 summary [all...] |
H A D | trust_region_minimizer.cc | 93 LineSearch::Summary summary; local 96 line_search->Search(1.0, cost, gradient.dot(delta), &summary); 97 if (!summary.success) { 101 line_search->Search(1.0, cost, -gradient.squaredNorm(), &summary); 103 return summary; 126 Solver::Summary* summary) { 146 summary->termination_type = NO_CONVERGENCE; 147 summary->num_successful_steps = 0; 148 summary->num_unsuccessful_steps = 0; 184 summary 124 Minimize(const Minimizer::Options& options, double* parameters, Solver::Summary* summary) argument [all...] |
H A D | solver_impl.cc | 73 Solver::Summary* summary) { 122 minimizer.Minimize(minimizer_options, parameters.data(), summary); 127 if (summary->termination_type != USER_FAILURE && 128 summary->termination_type != FAILURE) { 133 summary->minimizer_time_in_seconds = 141 Solver::Summary* summary) { 169 minimizer.Minimize(minimizer_options, parameters.data(), summary); 174 if (summary->termination_type != USER_FAILURE && 175 summary->termination_type != FAILURE) { 180 summary 67 TrustRegionMinimize( const Solver::Options& options, Program* program, CoordinateDescentMinimizer* inner_iteration_minimizer, Evaluator* evaluator, LinearSolver* linear_solver, Solver::Summary* summary) argument 137 LineSearchMinimize( const Solver::Options& options, Program* program, Evaluator* evaluator, Solver::Summary* summary) argument 184 Solve(const Solver::Options& options, ProblemImpl* problem_impl, Solver::Summary* summary) argument 203 TrustRegionSolve(const Solver::Options& original_options, ProblemImpl* original_problem_impl, Solver::Summary* summary) argument 440 LineSearchSolve(const Solver::Options& original_options, ProblemImpl* original_problem_impl, Solver::Summary* summary) argument 907 CreateInnerIterationMinimizer( const Solver::Options& options, const Program& program, const ProblemImpl::ParameterMap& parameter_map, Solver::Summary* summary) argument [all...] |
H A D | dense_qr_solver.cc | 104 LinearSolver::Summary summary; local 105 summary.num_iterations = 1; 106 summary.termination_type = LAPACK::SolveInPlaceUsingQR(lhs_.rows(), 112 &summary.message); 114 if (summary.termination_type == LINEAR_SOLVER_SUCCESS) { 119 return summary; 160 LinearSolver::Summary summary; local 161 summary.num_iterations = 1; 162 summary.termination_type = LINEAR_SOLVER_SUCCESS; 163 summary [all...] |
/external/libvpx/libvpx/test/ |
H A D | vpxdec.sh | 66 vpxdec "${VP8_IVF_FILE}" --summary --noblit 72 vpxdec_pipe "${VP8_IVF_FILE}" --summary --noblit 79 vpxdec "${VP9_WEBM_FILE}" --summary --noblit 87 vpxdec "${VP9_FPM_WEBM_FILE}" --summary --noblit --threads=$threads \ 101 "${VP9_LT_50_FRAMES_WEBM_FILE}" --summary --noblit 2>&1 \
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/external/autotest/frontend/client/src/autotest/common/ |
H A D | StatusSummary.java | 20 StatusSummary summary = new StatusSummary(); 21 summary.passed = getField(group, passCountField); 22 summary.complete = getField(group, completeCountField); 23 summary.incomplete = getField(group, incompleteCountField); 24 summary.total = getField(group, groupCountField); 27 summary.contents = Utils.JSONtoStrings(group.get("extra_info").isArray()); 30 return summary;
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/external/chromium-trace/catapult/telemetry/telemetry/internal/results/ |
H A D | output_formatter.py | 5 from telemetry.value import summary as summary_module 52 # Default summary uses merge_values.DefaultKeyFunc to summarize both by name 54 summary = summary_module.Summary(page_specific_values) 55 values = summary.interleaved_computed_per_page_values_and_summaries
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/external/chromium-trace/catapult/tracing/tracing/ui/extras/chrome/cc/ |
H A D | picture_ops_chart_summary_view.css | 6 * /deep/ tr-ui-e-chrome-cc-picture-ops-chart-summary-view { 16 * /deep/ tr-ui-e-chrome-cc-picture-ops-chart-summary-view.hidden {
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/external/curl/tests/ |
H A D | extern-scan.pl | 40 my $summary=0;
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/external/wpa_supplicant_8/hostapd/ |
H A D | wps-ap-nfc.py | 28 def summary(txt): function 35 summary(txt) 119 summary("received handover request {}".format(request.type)) 122 summary("not a handover request") 127 summary("error decoding 'Hr' message: {}".format(e)) 130 summary("send handover response {}".format(response.type)) 134 summary("HandoverServer - request received") 146 summary("WPS carrier type match - add WPS carrier record") 149 summary("Could not get handover select carrier record from hostapd") 156 summary("Handove [all...] |
/external/valgrind/auxprogs/ |
H A D | gsl16test | 80 rm -rf log.verbose gsl-1.6-patched summary.txt 84 echo > summary.txt 85 echo $0 $1 \"$2\" \"$3\" \"$4\" \"$5\" >> summary.txt 86 echo >> summary.txt 112 (echo -n " Native fails: " && (grep FAIL: out-REF | wc -l)) >> summary.txt 113 (echo -n " Native passes: " && (grep PASS: out-REF | wc -l)) >> summary.txt 114 (echo -n " Valgrind fails: " && (grep FAIL: out-VAL | wc -l)) >> summary.txt 115 (echo -n " Valgrind passes: " && (grep PASS: out-VAL | wc -l)) >> summary.txt 116 echo >> summary.txt
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H A D | gsl19test | 83 rm -rf log.verbose gsl-1.9 summary.txt 87 echo > summary.txt 88 echo $0 $1 \"$2\" \"$3\" \"$4\" \"$5\" >> summary.txt 89 echo >> summary.txt 117 (echo -n " Native fails: " && (grep FAIL: out-REF | wc -l)) >> summary.txt 118 (echo -n " Native passes: " && (grep PASS: out-REF | wc -l)) >> summary.txt 119 (echo -n " Valgrind fails: " && (grep FAIL: out-V | wc -l)) >> summary.txt 120 (echo -n " Valgrind passes: " && (grep PASS: out-V | wc -l)) >> summary.txt 121 echo >> summary.txt
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/external/objenesis/tck/src/org/objenesis/tck/ |
H A D | TextReporter.java | 30 * being read by a human. If can be reused to provide a summary reports of different candidates as 65 private final PrintStream summary; field in class:TextReporter 88 * @param summary Output of main report. 91 public TextReporter(PrintStream summary, PrintStream log) { argument 92 this.summary = summary; 142 * Print the final summary report 146 summary.println("Running TCK on platform: " + platformDescription); 147 summary.println(); 149 summary [all...] |
/external/ceres-solver/examples/ |
H A D | helloworld.cc | 76 Solver::Summary summary; local 77 Solve(options, &problem, &summary); 79 std::cout << summary.BriefReport() << "\n";
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H A D | helloworld_analytic_diff.cc | 99 Solver::Summary summary; local 100 Solve(options, &problem, &summary); 102 std::cout << summary.BriefReport() << "\n";
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