* under the terms of the license (GNU LGPL) which comes with this package. */
#include <cassert>
-
#include <cstdio>
+#include <list>
+
#include <xbt/log.h>
#include <xbt/dynar.h>
#include <xbt/dynar.hpp>
*
* It is managed by its head (`xbt_fifo_shift` and `xbt_fifo_unshift`).
*/
-XBT_PRIVATE static xbt_fifo_t mc_stack;
+XBT_PRIVATE static std::list<simgrid::mc::State*> mc_stack;
namespace simgrid {
namespace mc {
return snapshot_compare(num1, s1, num2, s2);
}
-static int is_exploration_stack_state(simgrid::mc::State* current_state){
-
- xbt_fifo_item_t item;
- simgrid::mc::State* stack_state;
- for(item = xbt_fifo_get_first_item(mc_stack); item != nullptr; item = xbt_fifo_get_next_item(item)) {
- stack_state = (simgrid::mc::State*) xbt_fifo_get_item_content(item);
- if(snapshot_compare(stack_state, current_state) == 0){
- XBT_INFO("Non-progressive cycle : state %d -> state %d", stack_state->num, current_state->num);
+static int is_exploration_stack_state(simgrid::mc::State* current_state)
+{
+ for (auto i = mc_stack.rbegin(); i != mc_stack.rend(); ++i)
+ if(snapshot_compare(*i, current_state) == 0){
+ XBT_INFO("Non-progressive cycle : state %d -> state %d", (*i)->num, current_state->num);
return 1;
}
- }
return 0;
}
RecordTrace SafetyChecker::getRecordTrace() // override
{
RecordTrace res;
-
- xbt_fifo_item_t start = xbt_fifo_get_last_item(mc_stack);
- for (xbt_fifo_item_t item = start; item; item = xbt_fifo_get_prev_item(item)) {
-
- // Find (pid, value):
- simgrid::mc::State* state = (simgrid::mc::State*) xbt_fifo_get_item_content(item);
+ for (simgrid::mc::State* state : mc_stack) {
int value = 0;
smx_simcall_t saved_req = MC_state_get_executed_request(state, &value);
const smx_process_t issuer = MC_smx_simcall_get_issuer(saved_req);
const int pid = issuer->pid;
-
res.push_back(RecordTraceElement(pid, value));
}
-
return res;
}
std::vector<std::string> SafetyChecker::getTextualTrace() // override
{
std::vector<std::string> trace;
- for (xbt_fifo_item_t item = xbt_fifo_get_last_item(mc_stack);
- item; item = xbt_fifo_get_prev_item(item)) {
- simgrid::mc::State* state = (simgrid::mc::State*)xbt_fifo_get_item_content(item);
+ for (simgrid::mc::State* state : mc_stack) {
int value;
smx_simcall_t req = MC_state_get_executed_request(state, &value);
if (req) {
char *req_str = nullptr;
int value;
smx_simcall_t req = nullptr;
- simgrid::mc::State* state = nullptr;
simgrid::mc::State* prev_state = nullptr;
simgrid::mc::State* next_state = nullptr;
xbt_fifo_item_t item = nullptr;
std::unique_ptr<simgrid::mc::VisitedState> visited_state = nullptr;
- while (xbt_fifo_size(mc_stack) > 0) {
+ while (!mc_stack.empty()) {
/* Get current state */
- state = (simgrid::mc::State*)xbt_fifo_get_item_content(xbt_fifo_get_first_item(mc_stack));
+ simgrid::mc::State* state = mc_stack.back();
XBT_DEBUG("**************************************************");
XBT_DEBUG
- ("Exploration depth=%d (state=%p, num %d)(%u interleave, user_max_depth %d)",
- xbt_fifo_size(mc_stack), state, state->num,
+ ("Exploration depth=%zi (state=%p, num %d)(%u interleave, user_max_depth %d)",
+ mc_stack.size(), state, state->num,
MC_state_interleave_size(state), user_max_depth_reached);
/* Update statistics */
/* If there are processes to interleave and the maximum depth has not been reached
then perform one step of the exploration algorithm */
- if (xbt_fifo_size(mc_stack) <= _sg_mc_max_depth && !user_max_depth_reached
+ if (mc_stack.size() <= _sg_mc_max_depth && !user_max_depth_reached
&& (req = MC_state_get_request(state, &value)) && visited_state == nullptr) {
req_str = simgrid::mc::request_to_string(req, value, simgrid::mc::RequestType::simix);
} else if (dot_output != nullptr)
std::fprintf(dot_output, "\"%d\" -> \"%d\" [%s];\n", state->num, visited_state->other_num == -1 ? visited_state->num : visited_state->other_num, req_str);
-
- xbt_fifo_unshift(mc_stack, next_state);
+ mc_stack.push_back(next_state);
if (dot_output != nullptr)
xbt_free(req_str);
/* The interleave set is empty or the maximum depth is reached, let's back-track */
} else {
- if ((xbt_fifo_size(mc_stack) > _sg_mc_max_depth) || user_max_depth_reached || visited_state != nullptr) {
+ if (mc_stack.size() > _sg_mc_max_depth
+ || user_max_depth_reached
+ || visited_state != nullptr) {
if (user_max_depth_reached && visited_state == nullptr)
XBT_DEBUG("User max depth reached !");
XBT_DEBUG("State already visited (equal to state %d), exploration stopped on this path.", visited_state->other_num == -1 ? visited_state->num : visited_state->other_num);
} else
- XBT_DEBUG("There are no more processes to interleave. (depth %d)", xbt_fifo_size(mc_stack) + 1);
+ XBT_DEBUG("There are no more processes to interleave. (depth %zi)",
+ mc_stack.size() + 1);
/* Trash the current state, no longer needed */
- xbt_fifo_shift(mc_stack);
- XBT_DEBUG("Delete state %d at depth %d", state->num, xbt_fifo_size(mc_stack) + 1);
+ mc_stack.pop_back();
+ XBT_DEBUG("Delete state %d at depth %zi",
+ state->num, mc_stack.size() + 1);
MC_state_delete(state, !state->in_visited_states ? 1 : 0);
visited_state = nullptr;
executed before it. If it does then add it to the interleave set of the
state that executed that previous request. */
- while ((state = (simgrid::mc::State*) xbt_fifo_shift(mc_stack))) {
+ while (!mc_stack.empty()) {
+ state = mc_stack.back();
+ mc_stack.pop_back();
if (reductionMode_ == simgrid::mc::ReductionMode::dpor) {
req = MC_state_get_internal_request(state);
if (req->call == SIMCALL_MUTEX_LOCK || req->call == SIMCALL_MUTEX_TRYLOCK)
xbt_die("Mutex is currently not supported with DPOR, "
"use --cfg=model-check/reduction:none");
const smx_process_t issuer = MC_smx_simcall_get_issuer(req);
- xbt_fifo_foreach(mc_stack, item, prev_state, simgrid::mc::State*) {
+ for (auto i = mc_stack.rbegin(); i != mc_stack.rend(); ++i) {
+ simgrid::mc::State* prev_state = *i;
if (reductionMode_ != simgrid::mc::ReductionMode::none
&& simgrid::mc::request_depend(req, MC_state_get_internal_request(prev_state))) {
if (XBT_LOG_ISENABLED(mc_safety, xbt_log_priority_debug)) {
}
}
- if (MC_state_interleave_size(state) && xbt_fifo_size(mc_stack) < _sg_mc_max_depth) {
+ if (MC_state_interleave_size(state)
+ && mc_stack.size() < _sg_mc_max_depth) {
/* We found a back-tracking point, let's loop */
- XBT_DEBUG("Back-tracking to state %d at depth %d", state->num, xbt_fifo_size(mc_stack) + 1);
- xbt_fifo_unshift(mc_stack, state);
- MC_replay(mc_stack);
- XBT_DEBUG("Back-tracking to state %d at depth %d done", state->num, xbt_fifo_size(mc_stack));
+ XBT_DEBUG("Back-tracking to state %d at depth %zi",
+ state->num, mc_stack.size() + 1);
+ mc_stack.push_back(state);
+ simgrid::mc::replay(mc_stack);
+ XBT_DEBUG("Back-tracking to state %d at depth %zi done",
+ state->num, mc_stack.size());
break;
} else {
- XBT_DEBUG("Delete state %d at depth %d", state->num, xbt_fifo_size(mc_stack) + 1);
+ XBT_DEBUG("Delete state %d at depth %zi",
+ state->num, mc_stack.size() + 1);
MC_state_delete(state, !state->in_visited_states ? 1 : 0);
}
}
XBT_DEBUG("Starting the safety algorithm");
/* Create exploration stack */
- mc_stack = xbt_fifo_new();
+ mc_stack.clear();
simgrid::mc::visited_states.clear();
break;
}
- xbt_fifo_unshift(mc_stack, initial_state);
+ mc_stack.push_back(initial_state);
/* Save the initial state */
initial_global_state = std::unique_ptr<s_mc_global_t>(new s_mc_global_t());