static container_t lowestCommonAncestor (container_t a1, container_t a2)
{
//this is only an optimization (since most of a1 and a2 share the same parent)
- if (a1->father == a2->father)
- return a1->father;
+ if (a1->father_ == a2->father_)
+ return a1->father_;
//create an array with all ancestors of a1
std::vector<container_t> ancestors_a1;
- container_t p = a1->father;
+ container_t p = a1->father_;
while (p){
ancestors_a1.push_back(p);
- p = p->father;
+ p = p->father_;
}
//create an array with all ancestors of a2
std::vector<container_t> ancestors_a2;
- p = a2->father;
+ p = a2->father_;
while (p){
ancestors_a2.push_back(p);
- p = p->father;
+ p = p->father_;
}
//find the lowest ancestor
static void linkContainers (container_t src, container_t dst, xbt_dict_t filter)
{
//ignore loopback
- if (strcmp (src->name, "__loopback__") == 0 || strcmp (dst->name, "__loopback__") == 0){
+ if (strcmp(src->name_, "__loopback__") == 0 || strcmp(dst->name_, "__loopback__") == 0) {
XBT_DEBUG (" linkContainers: ignoring loopback link");
return;
}
//check if we already register this pair (we only need one direction)
char aux1[INSTR_DEFAULT_STR_SIZE];
char aux2[INSTR_DEFAULT_STR_SIZE];
- snprintf (aux1, INSTR_DEFAULT_STR_SIZE, "%s%s", src->name, dst->name);
- snprintf (aux2, INSTR_DEFAULT_STR_SIZE, "%s%s", dst->name, src->name);
+ snprintf(aux1, INSTR_DEFAULT_STR_SIZE, "%s%s", src->name_, dst->name_);
+ snprintf(aux2, INSTR_DEFAULT_STR_SIZE, "%s%s", dst->name_, src->name_);
if (xbt_dict_get_or_null (filter, aux1)){
- XBT_DEBUG (" linkContainers: already registered %s <-> %s (1)", src->name, dst->name);
+ XBT_DEBUG(" linkContainers: already registered %s <-> %s (1)", src->name_, dst->name_);
return;
}
if (xbt_dict_get_or_null (filter, aux2)){
- XBT_DEBUG (" linkContainers: already registered %s <-> %s (2)", dst->name, src->name);
+ XBT_DEBUG(" linkContainers: already registered %s <-> %s (2)", dst->name_, src->name_);
return;
}
//declare type
char link_typename[INSTR_DEFAULT_STR_SIZE];
- snprintf (link_typename, INSTR_DEFAULT_STR_SIZE, "%s-%s%s-%s%s",
- father->type->name,
- src->type->name, src->type->id,
- dst->type->name, dst->type->id);
- type_t link_type = s_type::s_type_get_or_null (link_typename, father->type);
- if (link_type == nullptr){
- link_type = s_type::s_type_link_new (link_typename, father->type, src->type, dst->type);
- }
+ snprintf(link_typename, INSTR_DEFAULT_STR_SIZE, "%s-%s%s-%s%s", father->type_->name_, src->type_->name_,
+ src->type_->id_, dst->type_->name_, dst->type_->id_);
+ simgrid::instr::Type* link_type = father->type_->getChildOrNull(link_typename);
+ if (link_type == nullptr)
+ link_type = simgrid::instr::Type::linkNew(link_typename, father->type_, src->type_, dst->type_);
//register EDGE types for triva configuration
- trivaEdgeTypes.insert(link_type->name);
+ trivaEdgeTypes.insert(link_type->name_);
//create the link
static long long counter = 0;
snprintf (key, INSTR_DEFAULT_STR_SIZE, "%lld", counter);
counter++;
- new StartLinkEvent(SIMIX_get_clock(), father, link_type, src, "topology", key);
- new EndLinkEvent(SIMIX_get_clock(), father, link_type, dst, "topology", key);
+ new simgrid::instr::StartLinkEvent(SIMIX_get_clock(), father, link_type, src, "topology", key);
+ new simgrid::instr::EndLinkEvent(SIMIX_get_clock(), father, link_type, dst, "topology", key);
- XBT_DEBUG (" linkContainers %s <-> %s", src->name, dst->name);
+ XBT_DEBUG(" linkContainers %s <-> %s", src->name_, dst->name_);
}
static void recursiveGraphExtraction(simgrid::s4u::NetZone* netzone, container_t container, xbt_dict_t filter)
XBT_DEBUG("Graph extraction for NetZone = %s", netzone->getCname());
if (not netzone->getChildren()->empty()) {
//bottom-up recursion
- for (auto nz_son : *netzone->getChildren()) {
- container_t child_container = static_cast<container_t>(xbt_dict_get(container->children, nz_son->getCname()));
+ for (auto const& nz_son : *netzone->getChildren()) {
+ container_t child_container = static_cast<container_t>(xbt_dict_get(container->children_, nz_son->getCname()));
recursiveGraphExtraction(nz_son, child_container, filter);
}
}
const char* id = netzone.getCname();
if (PJ_container_get_root() == nullptr){
- PJ_container_alloc ();
- container_t root = PJ_container_new (id, INSTR_AS, nullptr);
+ container_t root = new simgrid::instr::Container(id, simgrid::instr::INSTR_AS, nullptr);
PJ_container_set_root (root);
if (TRACE_smpi_is_enabled()) {
- type_t mpi = s_type::s_type_get_or_null ("MPI", root->type);
+ simgrid::instr::Type* mpi = root->type_->getChildOrNull("MPI");
if (mpi == nullptr){
- mpi = s_type::s_type_container_new("MPI", root->type);
+ mpi = simgrid::instr::Type::containerNew("MPI", root->type_);
if (not TRACE_smpi_is_grouped())
- s_type::s_type_state_new ("MPI_STATE", mpi);
- s_type::s_type_link_new ("MPI_LINK", PJ_type_get_root(), mpi, mpi);
+ simgrid::instr::Type::stateNew("MPI_STATE", mpi);
+ simgrid::instr::Type::linkNew("MPI_LINK", PJ_type_get_root(), mpi, mpi);
}
}
if (TRACE_needs_platform()){
container_t father = currentContainer.back();
- container_t container = PJ_container_new (id, INSTR_AS, father);
+ container_t container = new simgrid::instr::Container(id, simgrid::instr::INSTR_AS, father);
currentContainer.push_back(container);
}
}
double bandwidth_value = link.bandwidth();
double latency_value = link.latency();
- container_t container = PJ_container_new(link.name(), INSTR_LINK, father);
+ container_t container = new simgrid::instr::Container(link.name(), simgrid::instr::INSTR_LINK, father);
if ((TRACE_categorized() || TRACE_uncategorized() || TRACE_platform()) && (not TRACE_disable_link())) {
- type_t bandwidth = s_type::s_type_get_or_null("bandwidth", container->type);
- if (bandwidth == nullptr) {
- bandwidth = s_type::s_type_variable_new("bandwidth", nullptr, container->type);
- }
- type_t latency = s_type::s_type_get_or_null("latency", container->type);
- if (latency == nullptr) {
- latency = s_type::s_type_variable_new("latency", nullptr, container->type);
- }
- new SetVariableEvent(0, container, bandwidth, bandwidth_value);
- new SetVariableEvent(0, container, latency, latency_value);
+ simgrid::instr::Type* bandwidth = container->type_->getChildOrNull("bandwidth");
+ if (bandwidth == nullptr)
+ bandwidth = simgrid::instr::Type::variableNew("bandwidth", nullptr, container->type_);
+ simgrid::instr::Type* latency = container->type_->getChildOrNull("latency");
+ if (latency == nullptr)
+ latency = simgrid::instr::Type::variableNew("latency", nullptr, container->type_);
+ new simgrid::instr::SetVariableEvent(0, container, bandwidth, bandwidth_value);
+ new simgrid::instr::SetVariableEvent(0, container, latency, latency_value);
}
if (TRACE_uncategorized()) {
- type_t bandwidth_used = s_type::s_type_get_or_null("bandwidth_used", container->type);
- if (bandwidth_used == nullptr) {
- s_type::s_type_variable_new("bandwidth_used", "0.5 0.5 0.5", container->type);
- }
+ simgrid::instr::Type* bandwidth_used = container->type_->getChildOrNull("bandwidth_used");
+ if (bandwidth_used == nullptr)
+ simgrid::instr::Type::variableNew("bandwidth_used", "0.5 0.5 0.5", container->type_);
}
}
static void sg_instr_new_host(simgrid::s4u::Host& host)
{
container_t father = currentContainer.back();
- container_t container = PJ_container_new(host.getCname(), INSTR_HOST, father);
+ container_t container = new simgrid::instr::Container(host.getCname(), simgrid::instr::INSTR_HOST, father);
if ((TRACE_categorized() || TRACE_uncategorized() || TRACE_platform()) && (not TRACE_disable_speed())) {
- type_t speed = s_type::s_type_get_or_null ("power", container->type);
+ simgrid::instr::Type* speed = container->type_->getChildOrNull("power");
if (speed == nullptr){
- speed = s_type::s_type_variable_new ("power", nullptr, container->type);
+ speed = simgrid::instr::Type::variableNew("power", nullptr, container->type_);
}
double current_speed_state = host.getSpeed();
- new SetVariableEvent (0, container, speed, current_speed_state);
+ new simgrid::instr::SetVariableEvent(0, container, speed, current_speed_state);
}
if (TRACE_uncategorized()){
- type_t speed_used = s_type::s_type_get_or_null ("power_used", container->type);
+ simgrid::instr::Type* speed_used = container->type_->getChildOrNull("power_used");
if (speed_used == nullptr){
- s_type::s_type_variable_new ("power_used", "0.5 0.5 0.5", container->type);
+ simgrid::instr::Type::variableNew("power_used", "0.5 0.5 0.5", container->type_);
}
}
if (TRACE_smpi_is_enabled() && TRACE_smpi_is_grouped()){
- type_t mpi = s_type::s_type_get_or_null ("MPI", container->type);
+ simgrid::instr::Type* mpi = container->type_->getChildOrNull("MPI");
if (mpi == nullptr){
- mpi = s_type::s_type_container_new("MPI", container->type);
- s_type::s_type_state_new ("MPI_STATE", mpi);
+ mpi = simgrid::instr::Type::containerNew("MPI", container->type_);
+ simgrid::instr::Type::stateNew("MPI_STATE", mpi);
}
}
if (TRACE_msg_process_is_enabled()) {
- type_t msg_process = s_type::s_type_get_or_null ("MSG_PROCESS", container->type);
+ simgrid::instr::Type* msg_process = container->type_->getChildOrNull("MSG_PROCESS");
if (msg_process == nullptr){
- msg_process = s_type::s_type_container_new("MSG_PROCESS", container->type);
- type_t state = s_type::s_type_state_new ("MSG_PROCESS_STATE", msg_process);
- value PJ_value("suspend", "1 0 1", state);
- value::get_or_new("sleep", "1 1 0", state);
- value::get_or_new("receive", "1 0 0", state);
- value::get_or_new("send", "0 0 1", state);
- value::get_or_new("task_execute", "0 1 1", state);
- s_type::s_type_link_new ("MSG_PROCESS_LINK", PJ_type_get_root(), msg_process, msg_process);
- s_type::s_type_link_new ("MSG_PROCESS_TASK_LINK", PJ_type_get_root(), msg_process, msg_process);
+ msg_process = simgrid::instr::Type::containerNew("MSG_PROCESS", container->type_);
+ simgrid::instr::Type* state = simgrid::instr::Type::stateNew("MSG_PROCESS_STATE", msg_process);
+ new simgrid::instr::Value("suspend", "1 0 1", state);
+ simgrid::instr::Value::get_or_new("sleep", "1 1 0", state);
+ simgrid::instr::Value::get_or_new("receive", "1 0 0", state);
+ simgrid::instr::Value::get_or_new("send", "0 0 1", state);
+ simgrid::instr::Value::get_or_new("task_execute", "0 1 1", state);
+ simgrid::instr::Type::linkNew("MSG_PROCESS_LINK", PJ_type_get_root(), msg_process, msg_process);
+ simgrid::instr::Type::linkNew("MSG_PROCESS_TASK_LINK", PJ_type_get_root(), msg_process, msg_process);
}
}
if (TRACE_msg_vm_is_enabled()) {
- type_t msg_vm = s_type::s_type_get_or_null ("MSG_VM", container->type);
+ simgrid::instr::Type* msg_vm = container->type_->getChildOrNull("MSG_VM");
if (msg_vm == nullptr){
- msg_vm = s_type::s_type_container_new("MSG_VM", container->type);
- type_t state = s_type::s_type_state_new ("MSG_VM_STATE", msg_vm);
- value PJ_value("suspend", "1 0 1", state);
- value::get_or_new("sleep", "1 1 0", state);
- value::get_or_new("receive", "1 0 0", state);
- value::get_or_new("send", "0 0 1", state);
- value::get_or_new("task_execute", "0 1 1", state);
- s_type::s_type_link_new ("MSG_VM_LINK", PJ_type_get_root(), msg_vm, msg_vm);
- s_type::s_type_link_new ("MSG_VM_PROCESS_LINK", PJ_type_get_root(), msg_vm, msg_vm);
+ msg_vm = simgrid::instr::Type::containerNew("MSG_VM", container->type_);
+ simgrid::instr::Type* state = simgrid::instr::Type::stateNew("MSG_VM_STATE", msg_vm);
+ new simgrid::instr::Value("suspend", "1 0 1", state);
+ simgrid::instr::Value::get_or_new("sleep", "1 1 0", state);
+ simgrid::instr::Value::get_or_new("receive", "1 0 0", state);
+ simgrid::instr::Value::get_or_new("send", "0 0 1", state);
+ simgrid::instr::Value::get_or_new("task_execute", "0 1 1", state);
+ simgrid::instr::Type::linkNew("MSG_VM_LINK", PJ_type_get_root(), msg_vm, msg_vm);
+ simgrid::instr::Type::linkNew("MSG_VM_PROCESS_LINK", PJ_type_get_root(), msg_vm, msg_vm);
}
}
return;
if (TRACE_is_enabled() && TRACE_needs_platform()) {
container_t father = currentContainer.back();
- PJ_container_new(netpoint->cname(), INSTR_ROUTER, father);
+ new simgrid::instr::Container(netpoint->cname(), simgrid::instr::INSTR_ROUTER, father);
}
}
/*
* user categories support
*/
-static void recursiveNewVariableType (const char *new_typename, const char *color, type_t root)
+static void recursiveNewVariableType(const char* new_typename, const char* color, simgrid::instr::Type* root)
{
- if (not strcmp(root->name, "HOST")) {
+ if (not strcmp(root->name_, "HOST")) {
char tnstr[INSTR_DEFAULT_STR_SIZE];
snprintf (tnstr, INSTR_DEFAULT_STR_SIZE, "p%s", new_typename);
- s_type::s_type_variable_new (tnstr, color, root);
+ simgrid::instr::Type::variableNew(tnstr, color, root);
}
- if (not strcmp(root->name, "MSG_VM")) {
+ if (not strcmp(root->name_, "MSG_VM")) {
char tnstr[INSTR_DEFAULT_STR_SIZE];
snprintf (tnstr, INSTR_DEFAULT_STR_SIZE, "p%s", new_typename);
- s_type::s_type_variable_new (tnstr, color, root);
+ simgrid::instr::Type::variableNew(tnstr, color, root);
}
- if (not strcmp(root->name, "LINK")) {
+ if (not strcmp(root->name_, "LINK")) {
char tnstr[INSTR_DEFAULT_STR_SIZE];
snprintf (tnstr, INSTR_DEFAULT_STR_SIZE, "b%s", new_typename);
- s_type::s_type_variable_new (tnstr, color, root);
+ simgrid::instr::Type::variableNew(tnstr, color, root);
}
xbt_dict_cursor_t cursor = nullptr;
- type_t child_type;
+ simgrid::instr::Type* child_type;
char *name;
- xbt_dict_foreach(root->children, cursor, name, child_type) {
+ xbt_dict_foreach (root->children_, cursor, name, child_type) {
recursiveNewVariableType (new_typename, color, child_type);
}
}
recursiveNewVariableType (new_typename, color, PJ_type_get_root());
}
-static void recursiveNewUserVariableType (const char *father_type, const char *new_typename, const char *color, type_t root)
+static void recursiveNewUserVariableType(const char* father_type, const char* new_typename, const char* color,
+ simgrid::instr::Type* root)
{
- if (not strcmp(root->name, father_type)) {
- s_type::s_type_variable_new (new_typename, color, root);
+ if (not strcmp(root->name_, father_type)) {
+ simgrid::instr::Type::variableNew(new_typename, color, root);
}
xbt_dict_cursor_t cursor = nullptr;
- type_t child_type;
+ simgrid::instr::Type* child_type;
char *name;
- xbt_dict_foreach(root->children, cursor, name, child_type) {
+ xbt_dict_foreach (root->children_, cursor, name, child_type) {
recursiveNewUserVariableType (father_type, new_typename, color, child_type);
}
}
recursiveNewUserVariableType (father_type, new_typename, color, PJ_type_get_root());
}
-static void recursiveNewUserStateType (const char *father_type, const char *new_typename, type_t root)
+static void recursiveNewUserStateType(const char* father_type, const char* new_typename, simgrid::instr::Type* root)
{
- if (not strcmp(root->name, father_type)) {
- s_type::s_type_state_new (new_typename, root);
+ if (not strcmp(root->name_, father_type)) {
+ simgrid::instr::Type::stateNew(new_typename, root);
}
xbt_dict_cursor_t cursor = nullptr;
- type_t child_type;
+ simgrid::instr::Type* child_type;
char *name;
- xbt_dict_foreach(root->children, cursor, name, child_type) {
+ xbt_dict_foreach (root->children_, cursor, name, child_type) {
recursiveNewUserStateType (father_type, new_typename, child_type);
}
}
recursiveNewUserStateType (father_type, new_typename, PJ_type_get_root());
}
-static void recursiveNewValueForUserStateType(const char* type_name, const char* val, const char* color, type_t root)
+static void recursiveNewValueForUserStateType(const char* type_name, const char* val, const char* color,
+ simgrid::instr::Type* root)
{
- if (not strcmp(root->name, type_name)) {
- value PJ_value(val, color, root);
+ if (not strcmp(root->name_, type_name)) {
+ new simgrid::instr::Value(val, color, root);
}
xbt_dict_cursor_t cursor = nullptr;
- type_t child_type;
+ simgrid::instr::Type* child_type;
char *name;
- xbt_dict_foreach(root->children, cursor, name, child_type) {
+ xbt_dict_foreach (root->children_, cursor, name, child_type) {
recursiveNewValueForUserStateType(type_name, val, color, child_type);
}
}
{
if (not netzone->getChildren()->empty()) {
//bottom-up recursion
- for (auto netzone_child : *netzone->getChildren()) {
+ for (auto const& netzone_child : *netzone->getChildren()) {
container_t child_container =
- static_cast<container_t>(xbt_dict_get(container->children, netzone_child->getCname()));
+ static_cast<container_t>(xbt_dict_get(container->children_, netzone_child->getCname()));
recursiveXBTGraphExtraction(graph, nodes, edges, netzone_child, child_container);
}
}