-/* Copyright (c) 2010-2017. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2010-2019. The SimGrid Team. All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
#include <xbt/base.h>
-#include "instr/instr_interface.h"
#include "simgrid/instr.h"
-#include "simgrid_config.h"
+#include "simgrid/s4u/Actor.hpp"
#include "src/instr/instr_paje_containers.hpp"
#include "src/instr/instr_paje_events.hpp"
#include "src/instr/instr_paje_types.hpp"
#include "src/instr/instr_paje_values.hpp"
-#include "src/internal_config.h"
#include "xbt/graph.h"
+
+#include <fstream>
#include <iomanip> /** std::setprecision **/
+#include <iostream>
#include <map>
+#include <memory>
#include <set>
#include <sstream>
#include <string>
-#include <sys/stat.h>
-#ifdef WIN32
-#include <direct.h> // _mkdir
-/* Need to define function drand48 for Windows */
-/* FIXME: use _drand48() defined in src/surf/random_mgr.c instead */
-#define drand48() (rand() / (RAND_MAX + 1.0))
-#endif
typedef simgrid::instr::Container* container_t;
namespace simgrid {
namespace instr {
+/* Format of TRACING output.
+ * - paje is the regular format, that we all know
+ * - TI is a trick to reuse the tracing functions to generate a time independent trace during the execution. Such
+ * trace can easily be replayed with smpi_replay afterward. This trick should be removed and replaced by some code
+ * using the signal that we will create to cleanup the TRACING
+ */
+enum class TraceFormat { Paje, /*TimeIndependent*/ Ti };
+extern TraceFormat trace_format;
+
class TIData {
std::string name_;
double amount_ = 0;
public:
int endpoint = 0;
int send_size = 0;
- std::vector<int>* sendcounts = nullptr;
+ std::shared_ptr<std::vector<int>> sendcounts = nullptr;
int recv_size = 0;
- std::vector<int>* recvcounts = nullptr;
+ std::shared_ptr<std::vector<int>> recvcounts = nullptr;
std::string send_type = "";
std::string recv_type = "";
// NoOpTI: init, finalize, test, wait, barrier
- explicit TIData(std::string name) : name_(name){};
- // CPuTI: compute, sleep (+ waitAny and waitAll out of laziness)
- explicit TIData(std::string name, double amount) : name_(name), amount_(amount){};
+ explicit TIData(const std::string& name) : name_(name){};
+ // CPuTI: compute, sleep (+ waitAny and waitall out of laziness)
+ explicit TIData(const std::string& name, double amount) : name_(name), amount_(amount){};
// Pt2PtTI: send, isend, sssend, issend, recv, irecv
- explicit TIData(std::string name, int endpoint, int size, std::string datatype)
+ explicit TIData(const std::string& name, int endpoint, int size, const std::string& datatype)
: name_(name), endpoint(endpoint), send_size(size), send_type(datatype){};
- // CollTI: bcast, reduce, allReduce, gather, scatter, allGather, allToAll
- explicit TIData(std::string name, int root, double amount, int send_size, int recv_size, std::string send_type,
- std::string recv_type)
+ // CollTI: bcast, reduce, allreduce, gather, scatter, allgather, alltoall
+ explicit TIData(const std::string& name, int root, double amount, int send_size, int recv_size,
+ const std::string& send_type, const std::string& recv_type)
: name_(name)
, amount_(amount)
, endpoint(root)
, recv_size(recv_size)
, send_type(send_type)
, recv_type(recv_type){};
- // VarCollTI: gatherV, scatterV, allGatherV, allToAllV (+ reduceScatter out of laziness)
- explicit TIData(std::string name, int root, int send_size, std::vector<int>* sendcounts, int recv_size,
- std::vector<int>* recvcounts, std::string send_type, std::string recv_type)
+ // VarCollTI: gatherv, scatterv, allgatherv, alltoallv (+ reducescatter out of laziness)
+ explicit TIData(const std::string& name, int root, int send_size, std::vector<int>* sendcounts, int recv_size,
+ std::vector<int>* recvcounts, const std::string& send_type, const std::string& recv_type)
+ : TIData(name, root, send_size, std::shared_ptr<std::vector<int>>(sendcounts), recv_size,
+ std::shared_ptr<std::vector<int>>(recvcounts), send_type, recv_type){};
+
+ explicit TIData(const std::string& name, int root, int send_size, std::shared_ptr<std::vector<int>> sendcounts,
+ int recv_size, std::shared_ptr<std::vector<int>> recvcounts, const std::string& send_type,
+ const std::string& recv_type)
: name_(name)
, endpoint(root)
, send_size(send_size)
, send_type(send_type)
, recv_type(recv_type){};
- virtual ~TIData()
- {
- delete sendcounts;
- delete recvcounts;
- }
+ virtual ~TIData() {}
- std::string getName() { return name_; }
+ const std::string& getName() const { return name_; }
double getAmount() { return amount_; }
virtual std::string print() = 0;
virtual std::string display_size() = 0;
class NoOpTIData : public TIData {
public:
- explicit NoOpTIData(std::string name) : TIData(name){};
+ explicit NoOpTIData(const std::string& name) : TIData(name){};
std::string print() override { return getName(); }
- std::string display_size() override { return ""; }
+ std::string display_size() override { return "NA"; }
};
class CpuTIData : public TIData {
public:
- explicit CpuTIData(std::string name, double amount) : TIData(name, amount){};
+ explicit CpuTIData(const std::string& name, double amount) : TIData(name, amount){};
std::string print() override
{
std::stringstream stream;
};
class Pt2PtTIData : public TIData {
+ int tag;
public:
- explicit Pt2PtTIData(std::string name, int endpoint, int size, std::string datatype)
- : TIData(name, endpoint, size, datatype){};
+ explicit Pt2PtTIData(const std::string& name, int endpoint, int size, int tag, const std::string& datatype)
+ : TIData(name, endpoint, size, datatype), tag(tag){};
+
+ explicit Pt2PtTIData(const std::string& name, int endpoint, int size, const std::string& datatype)
+ : TIData(name, endpoint, size, datatype), tag(0){};
std::string print() override
{
std::stringstream stream;
- stream << getName() << " ";
- if (endpoint >= 0)
- stream << endpoint << " ";
- stream << send_size << " " << send_type;
+ stream << getName() << " " << endpoint << " ";
+ stream << tag << " " << send_size << " " << send_type;
return stream.str();
}
std::string display_size() override { return std::to_string(send_size); }
class CollTIData : public TIData {
public:
- explicit CollTIData(std::string name, int root, double amount, int send_size, int recv_size, std::string send_type,
- std::string recv_type)
+ explicit CollTIData(const std::string& name, int root, double amount, int send_size, int recv_size,
+ const std::string& send_type, const std::string& recv_type)
: TIData(name, root, amount, send_size, recv_size, send_type, recv_type){};
std::string print() override
{
class VarCollTIData : public TIData {
public:
- explicit VarCollTIData(std::string name, int root, int send_size, std::vector<int>* sendcounts, int recv_size,
- std::vector<int>* recvcounts, std::string send_type, std::string recv_type)
+ explicit VarCollTIData(const std::string& name, int root, int send_size, std::vector<int>* sendcounts, int recv_size,
+ std::vector<int>* recvcounts, const std::string& send_type, const std::string& recv_type)
+ : TIData(name, root, send_size, sendcounts, recv_size, recvcounts, send_type, recv_type){};
+
+ explicit VarCollTIData(const std::string& name, int root, int send_size, std::shared_ptr<std::vector<int>> sendcounts,
+ int recv_size, std::shared_ptr<std::vector<int>> recvcounts, const std::string& send_type,
+ const std::string& recv_type)
: TIData(name, root, send_size, sendcounts, recv_size, recvcounts, send_type, recv_type){};
+
std::string print() override
{
std::stringstream stream;
}
std::string display_size() override { return std::to_string(send_size > 0 ? send_size : recv_size); }
};
+
+/**
+ * If we want to wait for a request of asynchronous communication, we need to be able
+ * to identify this request. We do this by searching for a request identified by (src, dest, tag).
+ */
+class WaitTIData : public TIData {
+ int src;
+ int dest;
+ int tag;
+
+public:
+ explicit WaitTIData(int src, int dest, int tag) : TIData("wait"), src(src), dest(dest), tag(tag){};
+
+ std::string print() override
+ {
+ std::stringstream stream;
+ stream << getName() << " " << src << " " << dest << " " << tag;
+
+ return stream.str();
+ }
+
+ std::string display_size() override { return "NA"; }
+};
+
+class AmpiMigrateTIData : public TIData {
+ size_t memory_consumption;
+public:
+ explicit AmpiMigrateTIData(size_t memory_conso) : TIData("migrate"), memory_consumption(memory_conso) { };
+
+ std::string print() override
+ {
+ std::stringstream stream;
+ stream << getName() << " " << memory_consumption;
+
+ return stream.str();
+ }
+
+ std::string display_size() override { return "NA"; }
+};
}
}
-extern "C" {
+XBT_PRIVATE std::string instr_pid(simgrid::s4u::Actor const& proc);
extern XBT_PRIVATE std::set<std::string> created_categories;
extern XBT_PRIVATE std::set<std::string> declared_marks;
extern XBT_PRIVATE double TRACE_last_timestamp_to_dump;
/* instr_paje_header.c */
-XBT_PRIVATE void TRACE_header(bool basic, int size);
-
-/* from paje.c */
-XBT_PRIVATE void TRACE_paje_start();
-XBT_PRIVATE void TRACE_paje_end();
+XBT_PRIVATE void TRACE_header(bool basic, bool size);
/* from instr_config.c */
XBT_PRIVATE bool TRACE_needs_platform();
XBT_PRIVATE bool TRACE_is_enabled();
XBT_PRIVATE bool TRACE_platform();
XBT_PRIVATE bool TRACE_platform_topology();
-XBT_PRIVATE bool TRACE_is_configured();
XBT_PRIVATE bool TRACE_categorized();
XBT_PRIVATE bool TRACE_uncategorized();
-XBT_PRIVATE bool TRACE_msg_process_is_enabled();
-XBT_PRIVATE bool TRACE_msg_vm_is_enabled();
-XBT_PRIVATE bool TRACE_buffer();
+XBT_PRIVATE bool TRACE_actor_is_enabled();
+XBT_PRIVATE bool TRACE_vm_is_enabled();
XBT_PRIVATE bool TRACE_disable_link();
XBT_PRIVATE bool TRACE_disable_speed();
-XBT_PRIVATE bool TRACE_onelink_only();
XBT_PRIVATE bool TRACE_disable_destroy();
XBT_PRIVATE bool TRACE_basic();
XBT_PRIVATE bool TRACE_display_sizes();
XBT_PRIVATE int TRACE_precision();
-XBT_PRIVATE void TRACE_generate_viva_uncat_conf();
-XBT_PRIVATE void TRACE_generate_viva_cat_conf();
-XBT_PRIVATE void instr_pause_tracing();
-XBT_PRIVATE void instr_resume_tracing();
/* Public functions used in SMPI */
-XBT_PUBLIC(bool) TRACE_smpi_is_enabled();
-XBT_PUBLIC(bool) TRACE_smpi_is_grouped();
-XBT_PUBLIC(bool) TRACE_smpi_is_computing();
-XBT_PUBLIC(bool) TRACE_smpi_is_sleeping();
-XBT_PUBLIC(bool) TRACE_smpi_view_internals();
-
-/* from resource_utilization.c */
-XBT_PRIVATE void TRACE_surf_host_set_utilization(const char* resource, const char* category, double value, double now,
- double delta);
-XBT_PRIVATE void TRACE_surf_link_set_utilization(const char* resource, const char* category, double value, double now,
- double delta);
-XBT_PUBLIC(void) TRACE_surf_resource_utilization_alloc();
+XBT_PUBLIC bool TRACE_smpi_is_enabled();
+XBT_PUBLIC bool TRACE_smpi_is_grouped();
+XBT_PUBLIC bool TRACE_smpi_is_computing();
+XBT_PUBLIC bool TRACE_smpi_is_sleeping();
+XBT_PUBLIC bool TRACE_smpi_view_internals();
+
+XBT_PRIVATE void TRACE_surf_resource_set_utilization(const char* type, const char* name, const char* resource,
+ const std::string& category, double value, double now,
+ double delta);
/* instr_paje.c */
extern XBT_PRIVATE std::set<std::string> trivaNodeTypes;
extern XBT_PRIVATE std::set<std::string> trivaEdgeTypes;
XBT_PRIVATE long long int instr_new_paje_id();
-void instr_new_variable_type(std::string new_typename, std::string color);
-void instr_new_user_variable_type(std::string father_type, std::string new_typename, std::string color);
-void instr_new_user_state_type(std::string father_type, std::string new_typename);
-void instr_new_value_for_user_state_type(std::string new_typename, const char* value, std::string color);
+XBT_PRIVATE void instr_define_callbacks();
+void instr_new_variable_type(const std::string& new_typename, const std::string& color);
+void instr_new_user_variable_type(const std::string& father_type, const std::string& new_typename,
+ const std::string& color);
+void instr_new_user_state_type(const std::string& father_type, const std::string& new_typename);
+void instr_new_value_for_user_state_type(const std::string& new_typename, const char* value, const std::string& color);
-/* instr_config.c */
-XBT_PRIVATE void TRACE_TI_start();
-XBT_PRIVATE void TRACE_TI_end();
+XBT_PRIVATE void TRACE_global_init();
+XBT_PRIVATE void TRACE_help();
XBT_PRIVATE void TRACE_paje_dump_buffer(bool force);
-XBT_PRIVATE void dump_comment_file(std::string filename);
-XBT_PRIVATE void dump_comment(std::string comment);
+XBT_PRIVATE void dump_comment_file(const std::string& filename);
+XBT_PRIVATE void dump_comment(const std::string& comment);
-/* Format of TRACING output.
- * - paje is the regular format, that we all know
- * - TI is a trick to reuse the tracing functions to generate a time independent trace during the execution. Such
- * trace can easily be replayed with smpi_replay afterward. This trick should be removed and replaced by some code
- * using the signal that we will create to cleanup the TRACING
- */
-enum instr_fmt_type_t { instr_fmt_paje, instr_fmt_TI };
-extern instr_fmt_type_t instr_fmt_type;
-}
-XBT_PRIVATE std::string TRACE_get_comment();
-XBT_PRIVATE std::string TRACE_get_comment_file();
XBT_PRIVATE std::string TRACE_get_filename();
-XBT_PRIVATE std::string TRACE_get_viva_uncat_conf();
-XBT_PRIVATE std::string TRACE_get_viva_cat_conf();
+
+/* instr_platform */
+xbt_graph_t instr_routing_platform_graph();
+void instr_routing_platform_graph_export_graphviz(xbt_graph_t g, const char* filename);
#endif