-/* Copyright (c) 2009-2017. The SimGrid Team.
+/* Copyright (c) 2009-2019. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
#include "simdag_private.hpp"
#include "simgrid/simdag.h"
-#include "xbt/file.h" /* xbt_basename() */
+#include "xbt/file.hpp"
#include "xbt/log.h"
#include "xbt/misc.h"
-#include "xbt/str.h"
+#include <algorithm>
#include <map>
+#include <stdexcept>
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(sd_daxparse, sd, "Parsing DAX files");
+#include "dax_dtd.h"
+#include "dax_dtd.c"
-extern "C" {
- #undef CLEANUP
- #include "dax_dtd.h"
- #define register /* g++ don't like register, so don't say it */
- #include "dax_dtd.c"
- #undef register
-}
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(sd_daxparse, sd, "Parsing DAX files");
/* Ensure that transfer tasks have unique names even though a file is used several times */
void uniq_transfer_task_name(SD_task_t task)
SD_task_set_name(task, new_name.c_str());
}
-static bool children_are_marked(SD_task_t task){
- for (SD_task_t it : *task->successors)
- if (it->marked == 0)
- return false;
- for (SD_task_t it : *task->outputs)
- if (it->marked == 0)
- return false;
- return true;
+static bool children_are_marked(const_SD_task_t task)
+{
+ return std::none_of(task->successors->begin(), task->successors->end(),
+ [](const SD_task_t& elm) { return not elm->marked; }) &&
+ std::none_of(task->outputs->begin(), task->outputs->end(),
+ [](const SD_task_t& elm) { return not elm->marked; });
}
-static bool parents_are_marked(SD_task_t task){
- for (SD_task_t it : *task->predecessors)
- if (it->marked == 0)
- return false;
- for (SD_task_t it : *task->inputs)
- if (it->marked == 0)
- return false;
- return true;
+static bool parents_are_marked(const_SD_task_t task)
+{
+ return std::none_of(task->predecessors->begin(), task->predecessors->end(),
+ [](const SD_task_t& elm) { return not elm->marked; }) &&
+ std::none_of(task->inputs->begin(), task->inputs->end(), [](const SD_task_t& elm) { return not elm->marked; });
}
-bool acyclic_graph_detail(xbt_dynar_t dag){
+bool acyclic_graph_detail(const_xbt_dynar_t dag)
+{
unsigned int count;
bool all_marked = true;
SD_task_t task = nullptr;
std::vector<SD_task_t> current;
- xbt_dynar_foreach(dag,count,task){
- if(task->kind != SD_TASK_COMM_E2E){
- task->marked = 0;
- if(task->successors->empty() && task->outputs->empty())
- current.push_back(task);
- }
- }
+ xbt_dynar_foreach (dag, count, task)
+ if (task->kind != SD_TASK_COMM_E2E && task->successors->empty() && task->outputs->empty())
+ current.push_back(task);
+
while (not current.empty()) {
std::vector<SD_task_t> next;
- for (auto t: current){
+ for (auto const& t : current) {
//Mark task
- t->marked = 1;
- for (SD_task_t input : *t->inputs){
- input->marked=1;
+ t->marked = true;
+ for (SD_task_t const& input : *t->inputs) {
+ input->marked = true;
// Inputs are communication, hence they can have only one predecessor
SD_task_t input_pred = *(input->predecessors->begin());
if (children_are_marked(input_pred))
next.push_back(input_pred);
}
- for (SD_task_t pred : *t->predecessors) {
+ for (SD_task_t const& pred : *t->predecessors) {
if (children_are_marked(pred))
next.push_back(pred);
}
all_marked = true;
//test if all tasks are marked
xbt_dynar_foreach(dag,count,task){
- if(task->kind != SD_TASK_COMM_E2E && task->marked == 0){
+ if (task->kind != SD_TASK_COMM_E2E && not task->marked) {
XBT_WARN("the task %s is not marked",task->name);
all_marked = false;
break;
XBT_VERB("there is at least one cycle in your task graph");
xbt_dynar_foreach(dag,count,task){
if(task->kind != SD_TASK_COMM_E2E && task->predecessors->empty() && task->inputs->empty()){
- task->marked = 1;
+ task->marked = true;
current.push_back(task);
}
}
while (not current.empty()) {
std::vector<SD_task_t> next;
//test if the current iteration is done
- for (auto t: current){
- t->marked = 1;
- for (SD_task_t output : *t->outputs) {
- output->marked = 1;
+ for (auto const& t : current) {
+ t->marked = true;
+ for (SD_task_t const& output : *t->outputs) {
+ output->marked = true;
// outputs are communication, hence they can have only one successor
SD_task_t output_succ = *(output->successors->begin());
if (parents_are_marked(output_succ))
next.push_back(output_succ);
}
- for (SD_task_t succ : *t->successors) {
+ for (SD_task_t const& succ : *t->successors) {
if (parents_are_marked(succ))
next.push_back(succ);
}
- current.clear();
- current = next;
}
+ current.clear();
+ current = next;
}
all_marked = true;
xbt_dynar_foreach(dag,count,task){
- if(task->kind != SD_TASK_COMM_E2E && task->marked == 0){
+ if (task->kind != SD_TASK_COMM_E2E && not task->marked) {
XBT_WARN("the task %s is in a cycle",task->name);
all_marked = false;
}
static std::map<std::string, SD_task_t> jobs;
static std::map<std::string, SD_task_t> files;
static SD_task_t current_job;
-static SD_task_t root_task;
-static SD_task_t end_task;
-
-static void dax_task_free(void *task)
-{
- SD_task_destroy(static_cast<SD_task_t>(task));
-}
/** @brief loads a DAX file describing a DAG
*
dax__switch_to_buffer(input_buffer);
dax_lineno = 1;
- result = xbt_dynar_new(sizeof(SD_task_t), dax_task_free);
- root_task = SD_task_create_comp_seq("root", nullptr, 0);
+ result = xbt_dynar_new(sizeof(SD_task_t), nullptr);
+ SD_task_t root_task = SD_task_create_comp_seq("root", nullptr, 0);
/* by design the root task is always SCHEDULABLE */
SD_task_set_state(root_task, SD_SCHEDULABLE);
xbt_dynar_push(result, &root_task);
- end_task = SD_task_create_comp_seq("end", nullptr, 0);
+ SD_task_t end_task = SD_task_create_comp_seq("end", nullptr, 0);
int res = dax_lex();
if (res != 0)
* Files not consumed in the system are said to be consumed by end task (bottom of DAG).
*/
- for (auto elm : files) {
+ for (auto const& elm : files) {
file = elm.second;
SD_task_t newfile;
if (file->predecessors->empty()) {
- for (SD_task_t it : *file->successors) {
+ for (SD_task_t const& it : *file->successors) {
newfile = SD_task_create_comm_e2e(file->name, nullptr, file->amount);
- SD_task_dependency_add(nullptr, nullptr, root_task, newfile);
- SD_task_dependency_add(nullptr, nullptr, newfile, it);
+ SD_task_dependency_add(root_task, newfile);
+ SD_task_dependency_add(newfile, it);
xbt_dynar_push(result, &newfile);
}
- } else if (file->successors->empty()) {
- for (SD_task_t it : *file->predecessors){
+ }
+ if (file->successors->empty()) {
+ for (SD_task_t const& it : *file->predecessors) {
newfile = SD_task_create_comm_e2e(file->name, nullptr, file->amount);
- SD_task_dependency_add(nullptr, nullptr, it, newfile);
- SD_task_dependency_add(nullptr, nullptr, newfile, end_task);
+ SD_task_dependency_add(it, newfile);
+ SD_task_dependency_add(newfile, end_task);
xbt_dynar_push(result, &newfile);
}
- } else {
- for (SD_task_t it : *file->predecessors) {
- for (SD_task_t it2 : *file->successors) {
- if (it == it2) {
- XBT_WARN ("File %s is produced and consumed by task %s."
- "This loop dependency will prevent the execution of the task.", file->name, it->name);
- }
- newfile = SD_task_create_comm_e2e(file->name, nullptr, file->amount);
- SD_task_dependency_add(nullptr, nullptr, it, newfile);
- SD_task_dependency_add(nullptr, nullptr, newfile, it2);
- xbt_dynar_push(result, &newfile);
+ }
+ for (SD_task_t const& it : *file->predecessors) {
+ for (SD_task_t const& it2 : *file->successors) {
+ if (it == it2) {
+ XBT_WARN("File %s is produced and consumed by task %s."
+ "This loop dependency will prevent the execution of the task.",
+ file->name, it->name);
}
+ newfile = SD_task_create_comm_e2e(file->name, nullptr, file->amount);
+ SD_task_dependency_add(it, newfile);
+ SD_task_dependency_add(newfile, it2);
+ xbt_dynar_push(result, &newfile);
}
}
+ /* Free previous copy of the files */
+ SD_task_destroy(file);
}
/* Push end task last */
xbt_dynar_push(result, &end_task);
- /* Free previous copy of the files */
- for (auto elm : files)
- SD_task_destroy(elm.second);
unsigned int cpt;
xbt_dynar_foreach(result, cpt, file) {
if (SD_task_get_kind(file) == SD_TASK_COMM_E2E) {
uniq_transfer_task_name(file);
- } else if (SD_task_get_kind(file) == SD_TASK_COMP_SEQ){
+ } else {
/* If some tasks do not take files as input, connect them to the root
* if they don't produce files, connect them to the end node.
*/
if ((file != root_task) && (file != end_task)) {
if (file->inputs->empty())
- SD_task_dependency_add(nullptr, nullptr, root_task, file);
+ SD_task_dependency_add(root_task, file);
if (file->outputs->empty())
- SD_task_dependency_add(nullptr, nullptr, file, end_task);
+ SD_task_dependency_add(file, end_task);
}
- } else {
- THROW_IMPOSSIBLE;
}
}
if (not acyclic_graph_detail(result)) {
- char* base = xbt_basename(filename);
- XBT_ERROR("The DAX described in %s is not a DAG. It contains a cycle.", base);
- free(base);
+ XBT_ERROR("The DAX described in %s is not a DAG. It contains a cycle.",
+ simgrid::xbt::Path(filename).get_base_name().c_str());
xbt_dynar_foreach(result, cpt, file)
SD_task_destroy(file);
xbt_dynar_free_container(&result);
- return nullptr;
- } else {
- return result;
+ result = nullptr;
}
+
+ return result;
}
void STag_dax__adag()
try {
double version = std::stod(std::string(A_dax__adag_version));
xbt_assert(version == 2.1, "Expected version 2.1 in <adag> tag, got %f. Fix the parser or your file", version);
- } catch (std::invalid_argument& ia) {
+ } catch (const std::invalid_argument&) {
throw std::invalid_argument(std::string("Parse error: ") + A_dax__adag_version + " is not a double");
}
}
current_job = SD_task_create_comp_seq(name.c_str(), nullptr, runtime);
jobs.insert({A_dax__job_id, current_job});
xbt_dynar_push(result, ¤t_job);
- } catch (std::invalid_argument& ia) {
+ } catch (const std::invalid_argument&) {
throw std::invalid_argument(std::string("Parse error: ") + A_dax__job_runtime + " is not a double");
}
}
double size;
try {
size = std::stod(std::string(A_dax__uses_size));
- } catch (std::invalid_argument& ia) {
+ } catch (const std::invalid_argument&) {
throw std::invalid_argument(std::string("Parse error: ") + A_dax__uses_size + " is not a double");
}
bool is_input = (A_dax__uses_link == A_dax__uses_link_input);
SD_task_t file;
if (it == files.end()) {
file = SD_task_create_comm_e2e(A_dax__uses_file, nullptr, size);
- sd_global->initial_tasks->erase(file);
+ sd_global->initial_tasks.erase(file);
files[A_dax__uses_file] = file;
} else {
file = it->second;
}
}
if (is_input) {
- SD_task_dependency_add(nullptr, nullptr, file, current_job);
+ SD_task_dependency_add(file, current_job);
} else {
- SD_task_dependency_add(nullptr, nullptr, current_job, file);
+ SD_task_dependency_add(current_job, file);
if ((file->predecessors->size() + file->inputs->size()) > 1) {
XBT_WARN("File %s created at more than one location...", file->name);
}
auto job = jobs.find(A_dax__parent_ref);
if (job != jobs.end()) {
SD_task_t parent = job->second;
- SD_task_dependency_add(nullptr, nullptr, parent, current_child);
+ SD_task_dependency_add(parent, current_child);
XBT_DEBUG("Control-flow dependency from %s to %s", current_child->name, parent->name);
} else {
throw std::out_of_range(std::string("Parse error on line ") + std::to_string(dax_lineno) +