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inline | side by side (from parent 1:
dd6e93b)
Parameter is the number of iterations to wait while converged before
to decide to exit.
unsigned lb_maxiter = 0;
unsigned comp_maxiter = 0;
double time_limit = 0;
unsigned lb_maxiter = 0;
unsigned comp_maxiter = 0;
double time_limit = 0;
- bool exit_on_convergence = false;
+ int exit_on_convergence = 0;
bool exit_on_close = true;
// Named parameters lists
bool exit_on_close = true;
// Named parameters lists
opterr = 0;
while ((c = getopt(*argc, argv,
"%:"
opterr = 0;
while ((c = getopt(*argc, argv,
"%:"
- "a:bc:C:d:D:eEGhi:I:k:l:L:m:M:N:r:Rs:S:t:T:vVx:X:Z"))
+ "a:bc:C:d:D:eEg:hi:I:k:l:L:m:M:N:r:Rs:S:t:T:vVx:X:Z"))
!= -1) {
switch (c) {
case '%':
!= -1) {
switch (c) {
case '%':
case 'E':
opt::egocentric = !opt::egocentric;
break;
case 'E':
opt::egocentric = !opt::egocentric;
break;
- case 'G':
- opt::exit_on_convergence = !opt::exit_on_convergence;
+ case 'g':
+ PARSE_ARG(opt::exit_on_convergence);
break;
case 'h':
opt::help_requested++;
break;
case 'h':
opt::help_requested++;
h.val_or_string(comp_maxiter, "no limit"));
DESCR("convergence is assumed within (\%)", "%g", opt::avg_load_ratio);
DESCR("time limit", "%s", h.val_or_string(time_limit, "no limit"));
h.val_or_string(comp_maxiter, "no limit"));
DESCR("convergence is assumed within (\%)", "%g", opt::avg_load_ratio);
DESCR("time limit", "%s", h.val_or_string(time_limit, "no limit"));
- DESCR("exit on convergence", "%s", h.on_off(exit_on_convergence));
+ DESCR("exit on convergence", "%s",
+ h.val_or_string(exit_on_convergence, "disabled"));
DESCR("exit on close", "%s", h.on_off(exit_on_close));
XBT_INFO("`----");
DESCR("exit on close", "%s", h.on_off(exit_on_close));
XBT_INFO("`----");
if (opt::help_requested > 1)
std::clog << o("")
<< "- if negative: use 100 * (nhosts / -value) / avg_load\n";
if (opt::help_requested > 1)
std::clog << o("")
<< "- if negative: use 100 * (nhosts / -value) / avg_load\n";
- std::clog << o("-G") << "toggle exit on detection of convergence"
- << " [" << opt_helper::on_off(opt::exit_on_convergence) << "]\n";
+ std::clog << o("-g value")
+ << "number of consecutive detections of convergence to exit"
+ << " [" << opt::exit_on_convergence << "]\n";
+ if (opt::help_requested > 1)
+ std::clog << o("")
+ << "- use 0 to disable\n";
std::clog << o("-t value")
<< "time limit (simulated time), 0 for no limit"
<< " [" << opt::time_limit << "]\n";
std::clog << o("-t value")
<< "time limit (simulated time), 0 for no limit"
<< " [" << opt::time_limit << "]\n";
extern unsigned lb_maxiter;
extern unsigned comp_maxiter;
extern double time_limit;
extern unsigned lb_maxiter;
extern unsigned comp_maxiter;
extern double time_limit;
- extern bool exit_on_convergence;
+ extern int exit_on_convergence;
extern bool exit_on_close;
// Named parameters lists
extern bool exit_on_close;
// Named parameters lists
double load_diff = std::fabs(real_load - average);
bool converged = load_diff <= load_diff_threshold;
double load_diff = std::fabs(real_load - average);
bool converged = load_diff <= load_diff_threshold;
- if (convergence >= 0.0) {
- if (!converged) {
- XBT_VERB("current load has diverged: %g (%.4g%%)",
- real_load, 100.0 * load_diff / average);
- convergence = -1.0;
- convergence_counter++;
- }
- } else {
- if (converged) {
+ if (converged) {
+ if (convergence < 0) {
XBT_VERB("current load has converged: %g (%.4g%%)",
real_load, 100.0 * load_diff / average);
convergence = MSG_get_clock();
XBT_VERB("current load has converged: %g (%.4g%%)",
real_load, 100.0 * load_diff / average);
convergence = MSG_get_clock();
+ local_convergence_counter = opt::exit_on_convergence;
+ }
+ if (local_convergence_counter > 0 && --local_convergence_counter == 0)
+ --convergence_counter;
+ } else {
+ if (convergence >= 0.0) {
+ XBT_VERB("current load has diverged: %g (%.4g%%)",
+ real_load, 100.0 * load_diff / average);
+ convergence = -1.0;
+ if (local_convergence_counter == 0)
+ ++convergence_counter;
double idle_duration; // how long we had nothing to compute
double convergence; // date when convergence was achieved, or -1.0
double idle_duration; // how long we had nothing to compute
double convergence; // date when convergence was achieved, or -1.0
+ int local_convergence_counter; // number of iterations since convergence
mutex_t mutex; // synchronization between threads
condition_t cond;
mutex_t mutex; // synchronization between threads
condition_t cond;