Interactive (-d) mode overrides this option when both are specified.
+ if (!debug && log)
+ set_procs_debug(true);
while (htif->tick())
{
if (debug || ctrlc_pressed)
while (htif->tick())
{
if (debug || ctrlc_pressed)
+void sim_t::set_log(bool value)
+{
+ log = value;
+}
+
void sim_t::set_histogram(bool value)
{
histogram_enabled = value;
void sim_t::set_histogram(bool value)
{
histogram_enabled = value;
bool running();
void stop();
void set_debug(bool value);
bool running();
void stop();
void set_debug(bool value);
+ void set_log(bool value);
void set_histogram(bool value);
void set_procs_debug(bool value);
htif_isasim_t* get_htif() { return htif.get(); }
void set_histogram(bool value);
void set_procs_debug(bool value);
htif_isasim_t* get_htif() { return htif.get(); }
size_t current_step;
size_t current_proc;
bool debug;
size_t current_step;
size_t current_proc;
bool debug;
bool histogram_enabled; // provide a histogram of PCs
// presents a prompt for introspection into the simulation
bool histogram_enabled; // provide a histogram of PCs
// presents a prompt for introspection into the simulation
fprintf(stderr, " -m <n> Provide <n> MiB of target memory [default 4096]\n");
fprintf(stderr, " -d Interactive debug mode\n");
fprintf(stderr, " -g Track histogram of PCs\n");
fprintf(stderr, " -m <n> Provide <n> MiB of target memory [default 4096]\n");
fprintf(stderr, " -d Interactive debug mode\n");
fprintf(stderr, " -g Track histogram of PCs\n");
+ fprintf(stderr, " -l Generate a log of execution\n");
fprintf(stderr, " -h Print this help message\n");
fprintf(stderr, " --isa=<name> RISC-V ISA string [default RV64IMAFDC]\n");
fprintf(stderr, " --ic=<S>:<W>:<B> Instantiate a cache model with S sets,\n");
fprintf(stderr, " -h Print this help message\n");
fprintf(stderr, " --isa=<name> RISC-V ISA string [default RV64IMAFDC]\n");
fprintf(stderr, " --ic=<S>:<W>:<B> Instantiate a cache model with S sets,\n");
{
bool debug = false;
bool histogram = false;
{
bool debug = false;
bool histogram = false;
size_t nprocs = 1;
size_t mem_mb = 0;
std::unique_ptr<icache_sim_t> ic;
size_t nprocs = 1;
size_t mem_mb = 0;
std::unique_ptr<icache_sim_t> ic;
parser.option('h', 0, 0, [&](const char* s){help();});
parser.option('d', 0, 0, [&](const char* s){debug = true;});
parser.option('g', 0, 0, [&](const char* s){histogram = true;});
parser.option('h', 0, 0, [&](const char* s){help();});
parser.option('d', 0, 0, [&](const char* s){debug = true;});
parser.option('g', 0, 0, [&](const char* s){histogram = true;});
+ parser.option('l', 0, 0, [&](const char* s){log = true;});
parser.option('p', 0, 1, [&](const char* s){nprocs = atoi(s);});
parser.option('m', 0, 1, [&](const char* s){mem_mb = atoi(s);});
parser.option(0, "ic", 1, [&](const char* s){ic.reset(new icache_sim_t(s));});
parser.option('p', 0, 1, [&](const char* s){nprocs = atoi(s);});
parser.option('m', 0, 1, [&](const char* s){mem_mb = atoi(s);});
parser.option(0, "ic", 1, [&](const char* s){ic.reset(new icache_sim_t(s));});
s.set_histogram(histogram);
return s.run();
}
s.set_histogram(histogram);
return s.run();
}