RMA functionality and refactor of many of the codes

Codes/malleability/malleabilityManager.h

@@ -18,14 +18,14 @@ void indicate_ending_malleability(int new_outside_state);
 int malleability_checkpoint();
 void set_benchmark_grp(int grp);
 
-void set_malleability_configuration(int spawn_method, int spawn_strategies, int spawn_dist, int comm_type, int comm_threaded);
+void set_malleability_configuration(int spawn_method, int spawn_strategies, int spawn_dist, int red_method, int red_strategies);
 void set_children_number(int numC); // TODO TO BE DEPRECATED
 void get_malleability_user_comm(MPI_Comm *comm);
 
 void malleability_add_data(void *data, size_t total_qty, int type, int is_replicated, int is_constant);
 void malleability_modify_data(void *data, size_t index, size_t total_qty, int type, int is_replicated, int is_constant);
 void malleability_get_entries(size_t *entries, int is_replicated, int is_constant);
-void malleability_get_data(void **data, int index, int is_replicated, int is_constant);
+void malleability_get_data(void **data, size_t index, int is_replicated, int is_constant);
 
 void set_benchmark_configuration(configuration *config_file);
 void get_benchmark_configuration(configuration **config_file);

Codes/malleability/malleabilityStates.h

@@ -5,21 +5,6 @@
 #include <stdlib.h>
 
 //States
-/*
-#define MAL_UNRESERVED -1
-#define MAL_DENIED -2
-#define MAL_ZOMBIE -3
-#define MAL_NOT_STARTED 0
-#define MAL_SPAWN_PENDING 1
-#define MAL_SPAWN_SINGLE_START 2
-#define MAL_SPAWN_SINGLE_PENDING 3
-#define MAL_SPAWN_ADAPT_POSTPONE 4
-#define MAL_SPAWN_COMPLETED 5
-#define MAL_DIST_PENDING 6
-#define MAL_DIST_COMPLETED 7
-#define MAL_DIST_ADAPTED 8
-*/
-
 #define MALL_DENIED -1
 enum mall_states{MALL_UNRESERVED, MALL_NOT_STARTED, MALL_ZOMBIE, MALL_SPAWN_PENDING, MALL_SPAWN_SINGLE_PENDING, 
 	MALL_SPAWN_SINGLE_COMPLETED, MALL_SPAWN_ADAPT_POSTPONE, MALL_SPAWN_COMPLETED, MALL_DIST_PENDING, MALL_DIST_COMPLETED, 
@@ -28,39 +13,19 @@ enum mall_spawn_methods{MALL_SPAWN_BASELINE, MALL_SPAWN_MERGE};
 #define MALL_SPAWN_PTHREAD 2
 #define MALL_SPAWN_SINGLE 3
 
+enum mall_redistribution_methods{MALL_RED_BASELINE, MALL_RED_POINT, MALL_RED_RMA_LOCK, MALL_RED_RMA_LOCKALL};
+#define MALL_RED_THREAD 2
+#define MALL_RED_IBARRIER 3
+
 #define MALLEABILITY_ROOT 0
 
 #define MAL_APP_EXECUTING 0
 #define MAL_APP_ENDED 1
 
-// TODO Refactor
-/*
-#define COMM_PHY_SPREAD 1
-#define COMM_PHY_COMPACT 2
-*/
-
-/*
-// SPAWN METHODS
-#define COMM_SPAWN_SERIAL 0
-#define COMM_SPAWN_PTHREAD 1
-#define COMM_SPAWN_MERGE 2
-#define COMM_SPAWN_MERGE_PTHREAD 3
-//#define COMM_SPAWN_BASELINE 0
-//#define COMM_SPAWN_MERGE 1
-//SPAWN STRATEGIES
-#define COMM_SPAWN_MULTIPLE 0
-#define COMM_SPAWN_SINGLE 1
-//#define COMM_SPAWN_PTHREAD 2
-//#define COMM_SPAWN_SINGLE 3
-*/
-#define MAL_USE_NORMAL 0
-#define MAL_USE_IBARRIER 1
-#define MAL_USE_POINT 2
-#define MAL_USE_THREAD 3
-
-
+//TODO DEPRECATE
 #define MAL_INT 0
 #define MAL_CHAR 1
+////////////////
 
 #define MALLEABILITY_CHILDREN 1
 #define MALLEABILITY_NOT_CHILDREN 0

Codes/malleability/malleabilityTypes.c

@@ -32,6 +32,7 @@ void add_data(void *data, size_t total_qty, int type, size_t request_qty, mallea
   data_struct->qty[data_struct->entries] = total_qty;
   data_struct->types[data_struct->entries] = type;
   data_struct->arrays[data_struct->entries] = data;
+  data_struct->request_qty[data_struct->entries] = request_qty;
 
   if(request_qty) {
     data_struct->requests[data_struct->entries] = (MPI_Request *) malloc(request_qty * sizeof(MPI_Request));
@@ -62,6 +63,7 @@ void modify_data(void *data, size_t index, size_t total_qty, int type, size_t re
   data_struct->qty[index] = total_qty;
   data_struct->types[index] = type;
   data_struct->arrays[index] = data;
+  data_struct->request_qty[index] = request_qty;
 
   if(request_qty) {
     data_struct->requests[index] = (MPI_Request *) malloc(request_qty * sizeof(MPI_Request));
@@ -80,7 +82,7 @@ void modify_data(void *data, size_t index, size_t total_qty, int type, size_t re
  */
 void comm_data_info(malleability_data_t *data_struct_rep, malleability_data_t *data_struct_dist, int is_children_group, int myId, int root, MPI_Comm intercomm) {
   int is_intercomm, rootBcast = MPI_PROC_NULL;
-  size_t i;
+  size_t i, j;
   MPI_Datatype entries_type, struct_type;
 
 
@@ -95,7 +97,7 @@ void comm_data_info(malleability_data_t *data_struct_rep, malleability_data_t *d
   def_malleability_entries(data_struct_dist, data_struct_rep, &entries_type);
   MPI_Bcast(MPI_BOTTOM, 1, entries_type, rootBcast, intercomm);
 
-  if(is_children_group && ( data_struct_rep->entries != 0 || data_struct_dist->entries != 0 )) {
+  if(is_children_group && ( data_struct_rep->entries != 0 || data_struct_dist->entries != 0 )) { //FIXME Que pasa si ambos valores son 0?
     init_malleability_data_struct(data_struct_rep, data_struct_rep->entries);
     init_malleability_data_struct(data_struct_dist, data_struct_dist->entries);
   }
@@ -104,17 +106,19 @@ void comm_data_info(malleability_data_t *data_struct_rep, malleability_data_t *d
   MPI_Bcast(MPI_BOTTOM, 1, struct_type, rootBcast, intercomm);
 
   if(is_children_group) {
-   /* 
-    size_t request_qty = 1; // TODO Obtener desde la funcion
-    data_struct_rep->requests[data_struct_rep->entries] = (MPI_Request *) malloc(request_qty * sizeof(MPI_Request));
-    data_struct_dist->requests[data_struct_dist->entries] = (MPI_Request *) malloc(request_qty * sizeof(MPI_Request));
-   */
-    
     for(i=0; i < data_struct_rep->entries; i++) {
       data_struct_rep->arrays[i] = (void *) malloc(data_struct_rep->qty[i] * sizeof(int)); //TODO Tener en cuenta que no siempre es int
+      data_struct_rep->requests[i] = (MPI_Request *) malloc(data_struct_rep->request_qty[i] * sizeof(MPI_Request));
+      for(j=0; j < data_struct_rep->request_qty[i]; j++) {
+        data_struct_rep->requests[i][j] = MPI_REQUEST_NULL;
+      }
     }
     for(i=0; i < data_struct_dist->entries; i++) {
-      data_struct_dist->arrays[i] = (void *) malloc(data_struct_dist->qty[i] * sizeof(int)); //TODO Tener en cuenta que no siempre es int
+      data_struct_dist->arrays[i] = (void *) NULL;
+      data_struct_dist->requests[i] = (MPI_Request *) malloc(data_struct_dist->request_qty[i] * sizeof(MPI_Request));
+      for(j=0; j < data_struct_dist->request_qty[i]; j++) {
+        data_struct_dist->requests[i][j] = MPI_REQUEST_NULL;
+      }
     }
   }
 
@@ -134,13 +138,20 @@ void comm_data_info(malleability_data_t *data_struct_rep, malleability_data_t *d
  * "size" elementos.
  */
 void init_malleability_data_struct(malleability_data_t *data_struct, size_t size) {
+  size_t i;
+
   data_struct->max_entries = size;
   data_struct->qty = (size_t *) malloc(size * sizeof(size_t));
   data_struct->types = (int *) malloc(size * sizeof(int));
+  data_struct->request_qty = (size_t *) malloc(size * sizeof(size_t));
   data_struct->requests = (MPI_Request **) malloc(size * sizeof(MPI_Request *));
+  data_struct->windows = (MPI_Win *) malloc(size * sizeof(MPI_Win));
   data_struct->arrays = (void **) malloc(size * sizeof(void *));
 
-  data_struct->request_ibarrier = MPI_REQUEST_NULL;
+  for(i=0; i<size; i++) { //calloc and memset does not ensure a NULL value
+    data_struct->requests[i] = NULL;
+    data_struct->arrays[i] = NULL;
+  }
 }
 
 /*
@@ -149,37 +160,46 @@ void init_malleability_data_struct(malleability_data_t *data_struct, size_t size
  * a las ya existentes.
  */
 void realloc_malleability_data_struct(malleability_data_t *data_struct, size_t qty_to_add) {
-  size_t needed, *qty_aux;
+  size_t i, needed, *qty_aux, *request_qty_aux;
   int *types_aux;
+  MPI_Win *windows_aux;
   MPI_Request **requests_aux;
   void **arrays_aux;
 
   needed = data_struct->max_entries + qty_to_add;
   qty_aux = (size_t *) realloc(data_struct->qty, needed * sizeof(int));
   types_aux = (int *) realloc(data_struct->types, needed * sizeof(int));
+  request_qty_aux = (size_t *) realloc(data_struct->request_qty, needed * sizeof(int));
   requests_aux = (MPI_Request **) realloc(data_struct->requests, needed * sizeof(MPI_Request *));
+  windows_aux = (MPI_Win *) realloc(data_struct->windows, needed * sizeof(MPI_Win));
   arrays_aux = (void **) realloc(data_struct->arrays, needed * sizeof(void *));
 
-  if(qty_aux == NULL || arrays_aux == NULL || requests_aux == NULL || types_aux == NULL) {
+  if(qty_aux == NULL || arrays_aux == NULL || requests_aux == NULL || types_aux == NULL || request_qty_aux == NULL || windows_aux == NULL) {
     fprintf(stderr, "Fatal error - No se ha podido realojar la memoria constante de datos a redistribuir/comunicar\n");
     MPI_Abort(MPI_COMM_WORLD, 1);
   }
 
+  for(i=data_struct->max_entries; i<needed; i++) { //realloc does not ensure a NULL value
+    requests_aux[i] = NULL;
+    arrays_aux[i] = NULL;
+  }
+
   data_struct->qty = qty_aux;
   data_struct->types = types_aux;
+  data_struct->request_qty = request_qty_aux;
   data_struct->requests = requests_aux;
+  data_struct->windows = windows_aux;
   data_struct->arrays = arrays_aux;
   data_struct->max_entries = needed;
 }
 
 void free_malleability_data_struct(malleability_data_t *data_struct) {
-  size_t i, max;
+  size_t i, j, max;
 
   max = data_struct->entries;
   if(max != 0) {
     for(i=0; i<max; i++) {
       //free(data_struct->arrays[i]); //FIXME Valores alojados con 1 elemento no se liberan?
-      //free(data_struct->requests[i]); //TODO Plantear como crearlos
     }
 
     if(data_struct->qty != NULL) {
@@ -188,9 +208,26 @@ void free_malleability_data_struct(malleability_data_t *data_struct) {
     if(data_struct->types != NULL) {
       free(data_struct->types);
     }
-    if(data_struct->requests != NULL) {
-      free(data_struct->requests);
+    if(data_struct->requests != NULL && data_struct->request_qty != NULL) {
+      for(i=0; i<max; i++) {
+        if(data_struct->requests[i] != NULL) {
+	  for(j=0; j<data_struct->request_qty[i]; j++) {
+	    if(data_struct->requests[i][j] != MPI_REQUEST_NULL) {
+              MPI_Request_free(&(data_struct->requests[i][j]));
+	      data_struct->requests[i][j] = MPI_REQUEST_NULL;
+	    }
+	  }
+          free(data_struct->requests[i]);
+	}
+      }
+      free(data_struct->request_qty);
+      free(data_struct->requests);  
+    }
+
+    if(data_struct->windows != NULL) {
+      free(data_struct->windows);
     }
+
     if(data_struct->arrays != NULL) {
       free(data_struct->arrays);
     }
@@ -232,20 +269,22 @@ void def_malleability_entries(malleability_data_t *data_struct_rep, malleability
  * TODO Refactor?
  */
 void def_malleability_qty_type(malleability_data_t *data_struct_rep, malleability_data_t *data_struct_dist, MPI_Datatype *new_type) {
-  int counts = 4;
+  int counts = 6;
   int blocklengths[counts];
   MPI_Aint displs[counts];
   MPI_Datatype types[counts];
 
-  types[0] = types[2] = MPI_UNSIGNED_LONG;
-  types[1] = types[3] = MPI_INT;
-  blocklengths[0] = blocklengths[1] = data_struct_rep->entries;
-  blocklengths[2] = blocklengths[3] = data_struct_dist->entries;
+  types[0] = types[1] = types[3] = types[4] = MPI_UNSIGNED_LONG;
+  types[2] = types[5] = MPI_INT;
+  blocklengths[0] = blocklengths[1] = blocklengths[2] = data_struct_rep->entries;
+  blocklengths[3] = blocklengths[4] = blocklengths[5] = data_struct_dist->entries;
 
   MPI_Get_address((data_struct_rep->qty), &displs[0]);
-  MPI_Get_address((data_struct_rep->types), &displs[1]);
-  MPI_Get_address((data_struct_dist->qty), &displs[2]);
-  MPI_Get_address((data_struct_dist->types), &displs[3]);
+  MPI_Get_address((data_struct_rep->request_qty), &displs[1]);
+  MPI_Get_address((data_struct_rep->types), &displs[2]);
+  MPI_Get_address((data_struct_dist->qty), &displs[3]);
+  MPI_Get_address((data_struct_dist->request_qty), &displs[4]);
+  MPI_Get_address((data_struct_dist->types), &displs[5]);
 
   MPI_Type_create_struct(counts, blocklengths, displs, types, new_type);
   MPI_Type_commit(new_type);

Codes/malleability/malleabilityTypes.h

@@ -13,13 +13,14 @@
 typedef struct {
   size_t entries; // Indica numero de vectores a comunicar (replicated data)
   size_t max_entries;
-  MPI_Request request_ibarrier; // Request para indicar que los padres esperan a que los hijos terminen de recibir
   size_t *qty; // Indica numero de elementos en cada subvector de sync_array
   int *types;
 
   // Vector de vectores de request. En cada elemento superior se indican los requests a comprobar para dar por finalizada 
   // la comunicacion de ese dato
+  size_t *request_qty;
   MPI_Request **requests; 
+  MPI_Win *windows;
   void **arrays; // Cada subvector es una serie de datos a comunicar
 
 } malleability_data_t;

Codes/malleability/malleabilityZombies.c

@@ -40,13 +40,12 @@ void zombies_collect_suspended(MPI_Comm comm, int myId, int numP, int numC, int
   free(pids_counts);
   free(pids_displs);
 
-  // FIXME No deberia estar aqui
-  // Needed to ensure iteration times are collected before suspending these processes
-  results_data *results = (results_data *) results_void;
-  compute_results_iter(results, myId, numP,root, comm); 
-  compute_results_stages(results, myId, numP, n_stages, root, comm);
-
   if(myId >= numC) {
+    // FIXME No deberia estar aqui
+    // Needed to ensure iteration times are collected before suspending these processes
+    results_data *results = (results_data *) results_void;
+    compute_results_iter(results, myId, numP,root, comm); 
+    compute_results_stages(results, myId, numP, n_stages, root, comm);
     zombies_suspend();
   }
 }

Codes/malleability/spawn_methods/GenericSpawn.c

@@ -215,6 +215,7 @@ void set_spawn_configuration(char *cmd, int num_cpus, int num_nodes, char *nodel
     init_spawn_state();
   }
 
+  spawn_data->mapping = MPI_INFO_NULL;
   if(spawn_data->myId == spawn_data->root) {
     physical_struct_create(target_qty, spawn_data->already_created, num_cpus, num_nodes, nodelist, type_dist, MALL_DIST_STRING, &(spawn_data->dist));
 
@@ -225,7 +226,6 @@ void set_spawn_configuration(char *cmd, int num_cpus, int num_nodes, char *nodel
 
   } else {
     spawn_data->cmd = malloc(1 * sizeof(char));
-    spawn_data->mapping = MPI_INFO_NULL; //It is only needed for the root process
   }
 }
 
@@ -290,10 +290,10 @@ void deallocate_spawn_data() {
  * Cuando termina, modifica la variable global para indicar este cambio
  */
 void generic_spawn(MPI_Comm *child, int data_stage) {
-  int local_state;
+  int local_state, aux_state;
 
   // WORK
-  if(spawn_data->myId == spawn_data->root) { //SET MAPPING
+  if(spawn_data->myId == spawn_data->root && spawn_data->spawn_qty > 0) { //SET MAPPING FOR NEW PROCESSES
     processes_dist(spawn_data->dist, &(spawn_data->mapping));
   }
   switch(spawn_data->spawn_method) {
@@ -306,7 +306,10 @@ void generic_spawn(MPI_Comm *child, int data_stage) {
   }
   // END WORK
   end_time = MPI_Wtime();
-  set_spawn_state(local_state, spawn_data->spawn_is_async);
+  aux_state = get_spawn_state(spawn_data->spawn_is_async);
+  if(!(aux_state == MALL_SPAWN_PENDING && local_state == MALL_SPAWN_ADAPT_POSTPONE)) {
+    set_spawn_state(local_state, spawn_data->spawn_is_async);
+  }
 }
 
 
@@ -345,7 +348,7 @@ void* thread_work() {
   generic_spawn(returned_comm, MALL_NOT_STARTED);
 
   local_state = get_spawn_state(MALL_SPAWN_PTHREAD);
-  if(local_state == MALL_SPAWN_ADAPT_POSTPONE) {
+  if(local_state == MALL_SPAWN_ADAPT_POSTPONE || local_state == MALL_SPAWN_PENDING) {
     // El grupo de procesos se terminara de juntar tras la redistribucion de datos
 
     local_state = wait_wakeup();

Codes/malleability/spawn_methods/ProcessDist.c

@@ -168,7 +168,7 @@ void compact_dist(struct physical_dist dist, int *used_nodes, int *procs) {
   int tamBl, remainder;
 
   tamBl = dist.num_cpus / dist.num_nodes;
-  asigCores = 0;
+  asigCores = dist.already_created;
   i = *used_nodes = dist.already_created / tamBl;
   remainder = dist.already_created % tamBl;
 
@@ -176,12 +176,13 @@ void compact_dist(struct physical_dist dist, int *used_nodes, int *procs) {
   //First nodes could already have existing procs
   //Start from the first with free spaces
   if (remainder) {
-    procs[i] = asigCores = tamBl - remainder;
+    procs[i] = tamBl - remainder;
+    asigCores += procs[i];
     i = (i+1) % dist.num_nodes;
     (*used_nodes)++;
   }
 
-  //Assing tamBl to each node
+  //Assign tamBl to each node
   while(asigCores+tamBl <= dist.target_qty) {
     asigCores += tamBl;
     procs[i] += tamBl;

Codes/malleability/spawn_methods/Spawn_state.c

 #include <stdio.h>
 #include <stdlib.h>
 #include <pthread.h>
+#include "Spawn_state.h"
 
 pthread_mutex_t spawn_mutex;
 pthread_cond_t spawn_cond;
 int spawn_state;
+int waiting_redistribution=0;
 
 void init_spawn_state() {
   pthread_mutex_init(&spawn_mutex,NULL);
   pthread_cond_init(&spawn_cond,NULL);
+  set_spawn_state(1,0); //FIXME First parameter is a horrible magical number
 }
 
 void free_spawn_state() {
@@ -40,13 +43,20 @@ void set_spawn_state(int value, int is_async) {
 
 int wait_wakeup() {
   pthread_mutex_lock(&spawn_mutex);
-  pthread_cond_wait(&spawn_cond, &spawn_mutex);
+  if(!waiting_redistribution) {
+    waiting_redistribution=1;
+    pthread_cond_wait(&spawn_cond, &spawn_mutex);
+  }
+  waiting_redistribution=0;
   pthread_mutex_unlock(&spawn_mutex);
   return get_spawn_state(1);
 }
 
 void wakeup() {
   pthread_mutex_lock(&spawn_mutex);
-  pthread_cond_signal(&spawn_cond);
+  if(waiting_redistribution) {
+    pthread_cond_signal(&spawn_cond);
+  }
+  waiting_redistribution=1;
   pthread_mutex_unlock(&spawn_mutex);
 }

Codes/runBase.sh

@@ -5,7 +5,11 @@
 #SBATCH --exclude=c01,c00,c02
 
 dir="/home/martini/malleability_benchmark"
+partition='P1'
+
 codeDir="/Codes"
+execDir="/Exec"
+cores=$(bash $dir$execDir/BashScripts/getCores.sh $partition)
 
 nodelist=$SLURM_JOB_NODELIST
 nodes=$SLURM_JOB_NUM_NODES
@@ -18,18 +22,14 @@ then
 fi
 
 echo "MPICH"
-#module load mpich-3.4.1-noucx
 #export HYDRA_DEBUG=1
 
-aux=$(grep "\[resize0\]" -n $configFile | cut -d ":" -f1)
-read -r ini fin <<<$(echo $aux)
-diff=$(( fin - ini ))
-numP=$(head -$fin $configFile | tail -$diff | cut -d ';' -f1 | grep Procs | cut -d '=' -f2)
-
-ls /home/martini/malleability_benchmark/Codes/build/a.out
-
-echo "Test PreRUN $numP $nodes"
-mpirun -np $numP $dir$codeDir/build/a.out $configFile $outIndex $nodelist $nodes
+numP=$(bash $dir$execDir/BashScripts/getNumPNeeded.sh $configFile 0)
+initial_nodelist=$(bash $dir$execDir/BashScripts/createInitialNodelist.sh $numP $cores $nodelist)
+echo $initial_nodelist
+echo "Test PreRUN $numP $nodelist"
+mpirun -hosts $initial_nodelist -np $numP $dir$codeDir/build/a.out $configFile $outIndex $nodelist $nodes
 
 echo "END RUN"
 sed -i 's/application called MPI_Abort(MPI_COMM_WORLD, -100) - process/shrink cleaning/g' slurm-$SLURM_JOB_ID.out
+sed -i 's/Abort(-100)/shrink cleaning/g' slurm-$SLURM_JOB_ID.out

Codes/runTrace.sh

@@ -7,6 +7,7 @@
 dir="/home/martini/malleability_benchmark"
 codeDir="/Codes/build"
 resultsDir="/Results"
+execDir="/Exec"
 
 nodelist=$SLURM_JOB_NODELIST
 nodes=$SLURM_JOB_NUM_NODES
@@ -15,10 +16,7 @@ outIndex=$2
 
 echo "MPICH"
 
-aux=$(grep "\[resize0\]" -n $configFile | cut -d ":" -f1)
-read -r ini fin <<<$(echo $aux)
-diff=$(( fin - ini ))
-numP=$(head -$fin $configFile | tail -$diff | cut -d ';' -f1 | grep Procs | cut -d '=' -f2)
+numP=$(bash $dir$execDir/BashScripts/getNumPNeeded.sh $configFile 0)
 
 name_res="Extrae_"$nodes"_Test_"$numP
 dir_name_res=$dir$resultsDir"/"$name_res
@@ -28,6 +26,7 @@ srun -n$numP --mpi=pmi2 ./trace.sh $dir$codeDir/a.out $configFile $outIndex $nod
 
 echo "END RUN"
 sed -i 's/application called MPI_Abort(MPI_COMM_WORLD, -100) - process/shrink cleaning/g' slurm-$SLURM_JOB_ID.out
+sed -i 's/Abort(-100)/shrink cleaning/g' slurm-$SLURM_JOB_ID.out
 rm hostfile.o$SLURM_JOB_ID
 
 echo "MOVING DATA"

Codes/runValgrind.sh

@@ -6,6 +6,7 @@
 
 dir="/home/martini/malleability_benchmark"
 codeDir="/Codes"
+execDir="/Exec"
 
 nodelist="localhost"
 nodes=1
@@ -16,12 +17,9 @@ echo "MPICH"
 #module load mpich-3.4.1-noucx
 #export HYDRA_DEBUG=1
 
-aux=$(grep "\[resize0\]" -n $1 | cut -d ":" -f1)
-read -r ini fin <<<$(echo $aux)
-diff=$(( fin - ini ))
-numP=$(head -$fin $1 | tail -$diff | cut -d ';' -f1 | grep Procs | cut -d '=' -f2)
-
+numP=$(bash $dir$execDir/BashScripts/getNumPNeeded.sh $configFile 0)
 mpirun -np $numP valgrind --leak-check=full --show-leak-kinds=all --track-origins=yes --trace-children=yes --log-file=nc.vg.%p $dir$codeDir/build/a.out $configFile $outIndex $nodelist $nodes
 
 echo "END RUN"
 sed -i 's/application called MPI_Abort(MPI_COMM_WORLD, -100) - process/shrink cleaning/g' slurm-$SLURM_JOB_ID.out
+sed -i 's/Abort(-100)/shrink cleaning/g' slurm-$SLURM_JOB_ID.out

Exec/BashScripts/createInitialNodelist.sh

+#!/bin/bash
+
+dir="/home/martini/malleability_benchmark" #FIXME Obtain from another way
+
+# Runs in a given current directory all .ini files
+# Parameter 1(Optional) - Amount of executions per file. Must be a positive number
+#====== Do not modify these values =======
+
+codeDir="/Codes/build"
+execDir="/Exec"
+ResultsDir="/Results"
+
+numP=$1
+cores=$2
+nodelist=$3
+
+initial_node_qty=$(($numP / $cores))
+if [ $initial_node_qty -eq 0 ]
+then
+  initial_node_qty=1
+fi
+
+common_node_name="n" #FIXME What if it uses another type of node?
+if [[ $nodelist == *"["* ]]; then
+  common_node_name=$(echo $nodelist | cut -d '[' -f1)
+fi
+
+node_array=($(echo $nodelist | sed -e 's/[\[n]//g' -e 's/\]/ /g' -e 's/,/ /g'))
+actual_node_qty=0
+for ((i=0; $actual_node_qty<$initial_node_qty; i++))
+do
+  element=($(echo ${node_array[$i]} | sed -e 's/-/ /g'))
+
+  nodes_qty=1
+  if [ "${#element[@]}" -gt 1 ];
+  then
+    nodes_qty=$((10#${element[1]}-10#${element[0]}+1))
+  fi
+
+  expected_node_qty=$(($actual_node_qty + $nodes_qty))
+  if [ "$expected_node_qty" -le "$initial_node_qty" ];
+  then
+    added_qty=$nodes_qty
+    actual_node_qty=$expected_node_qty
+  else
+    added_qty=$(($initial_node_qty - $actual_node_qty))
+    actual_node_qty=$initial_node_qty
+  fi
+
+  for ((j=0; j<$added_qty; j++))
+  do
+    index=$((10#${element[0]} + $j))
+    index=0$index # FIXME What if there are more than 9 nodes?
+    #FIXME What if less than $cores have to be spawned?
+    for ((core=0; core<$cores; core++)) # FIXME What if the user asks for a spread distribution
+    do
+      initial_nodelist="${initial_nodelist:+$initial_nodelist,}"$common_node_name$index
+    done
+  done
+done
+
+#Print result
+echo $initial_nodelist

Exec/BashScripts/getCores.sh

+#!/bin/bash
+
+# Obtains the number of total cores in an homogenous partition
+# Parameter 1 - Partition to use
+#====== Do not modify these values =======
+partition=$1
+
+hostlist=$(sinfo -hs --partition $partition | sed 's/  */:/g' | cut -d ':' -f5)
+basic_node=$(scontrol show hostname $hostlist | paste -d, -s | cut -d ',' -f1)
+cores=$(scontrol show node $basic_node | grep CPUTot | cut -d '=' -f3 | cut -d ' ' -f1)
+echo "$cores"

Exec/BashScripts/getMaxNodesNeeded.sh

+#!/bin/bash
+
+# Obtains for a given configuration file how many nodes will be needed
+# Parameter 1 - Configuration file name for the emulation.
+# Parameter 2 - Base directory of the malleability benchmark
+# Parameter 3 - Number of cores in the machines. The machines must be homogenous. Must be a positive number.
+#====== Do not modify these values =======
+
+codeDir="/Codes/build"
+execDir="/Exec"
+ResultsDir="/Results"
+
+if [ "$#" -lt "3" ]
+then
+  echo "Not enough arguments"
+  echo "Usage -> bash getMaxNodesNeeded.sh Configuration.ini BaseDirectory NumCores"
+  exit -1
+fi
+
+config_file=$1
+dir=$2
+cores=$3
+
+max_numP=-1
+total_resizes=$(grep Total_Resizes $config_file | cut -d '=' -f2)
+total_groups=$(($total_resizes + 1))
+for ((j=0; j<total_groups; j++));
+do
+  numP=$(bash $dir$execDir/BashScripts/getNumPNeeded.sh $config_file $j)
+  if [ "$numP" -gt "$max_numP" ];
+  then
+    max_numP=$numP
+  fi
+done
+node_qty=$(($max_numP / $cores))
+if [ $node_qty -eq 0 ]
+then
+  node_qty=1
+fi
+
+echo $node_qty

Exec/BashScripts/getNumPNeeded.sh

+#!/bin/bash
+
+dir="/home/martini/malleability_benchmark" #FIXME Obtain from another way
+
+# Runs in a given current directory all .ini files
+# Parameter 1(Optional) - Amount of executions per file. Must be a positive number
+#====== Do not modify these values =======
+
+codeDir="/Codes/build"
+execDir="/Exec"
+ResultsDir="/Results"
+
+config_file=$1
+group_index=$2
+
+resize_info=$(grep "\[resize$group_index\]" -n $config_file | cut -d ":" -f1)
+first_line=$(echo $resize_info | cut -d " " -f1)
+last_line=$(echo $resize_info | cut -d " " -f2)
+range_lines=$(( last_line - first_line ))
+numP=$(head -$last_line $config_file | tail -$range_lines | cut -d ';' -f1 | grep Procs | cut -d '=' -f2)
+
+echo $numP

Exec/CheckRun.sh

 #!/bin/bash
 
 dir="/home/martini/malleability_benchmark/"
+partition="P1"
+
+# Checks if all the runs in the current working directory performed under a 
+# Slurm manager have been performed correctly and if some runs can be corrected 
+# they are launched again
+# Parameter 1 - Common name of the configuration files
+# Parameter 2 - Maximum index of the runs
+# Parameter 3 - Amount of repetitions per index/run
+# Parameter 4 - Total stages in all runs. #FIXME The amount of stages must be equal across all the runs, must be modified in the future.
+# Parameter 5 - Total groups of processes in all runs #FIXME The amount of groups must be equal across all the runs, must be modified in the future.
+# Parameter 6 - Maximum valid iteration time across all runs. If an iteration time
+#               is higher, that particular repetition inside the run is cleaned and
+#               launched again.
+# Parameter 7(Optional) - Maximum amount of time in seconds needed by a single execution. Default value is 0, which indicates infinite time. 
+#               Must be a positive integer.
+#====== Do not modify the following values =======
+
 codeDir="Codes/"
 execDir="Exec/"
 ResultsDir="Results/"
+cores=$(bash $dir$execDir/BashScripts/getCores.sh $partition)
 
-ResultsDirName=$1
-maxIndex=$2
-cantidadGrupos=$3 #Contando a los padres
-totalEjGrupo=$4 #Total de ejecuciones por grupo
-maxTime=$5 #Maximo tiempo que se considera válido
-
-if [ $# -lt 3 ]
+if [ "$#" -lt "6" ]
 then
-  echo "Faltan argumentos"
-  echo "Uso -> bash CheckRun NombreDirectorio IndiceMaximo Grupos"
+  echo "Not enough arguments"
+  echo "Usage -> bash CheckRun Common_Name maxIndex total_repetitions total_groups total_stages max_iteration_time [limit_time]"
   exit -1
 fi
 
-cd $dir$ResultsDir
-if [ ! -d $ResultsDirName ]
+common_name=$1
+maxIndex=$2
+totalEjGrupo=$3 #Total de ejecuciones por grupo
+total_stages=$4
+total_groups=$5
+maxTime=$6 #Maximo tiempo que se considera válido
+limit_time_exec=0
+if [ $# -ge 7 ] #Max time per execution in seconds
 then
-  echo "La carpeta de resultados $ResultsDirName no existe. Abortando"
-  exit -1
+  limit_time_exec=$7
 fi
-cd $ResultsDirName
 
-#Comprobar si hay errores
-#Si los hay, salir
-grep -i -e fatal -e error -e abort -e == */slurm* > errores2.txt
-qty=$(wc -l errores2.txt | cut -d ' ' -f1)
+limit_time=0
+exec_lines_basic=7
+iter_lines_basic=3
+exec_total_lines=$(($exec_lines_basic+$total_stages+$total_groups))
+iter_total_lines=$(($iter_lines_basic+$total_stages*2+1))
+exec_remove=$(($exec_lines_basic+$total_stages+$total_groups-1))
+iter_remove=$(($iter_lines_basic+$total_stages))
+
 
-if [ $qty -gt 0 ]
+#Check if there are fatal errors during executions
+grep -i -e fatal -e error -e abort -e == slurm* > errores2.txt
+qty=$(wc -l errores2.txt | cut -d ' ' -f1)
+if [ "$qty" -gt "0" ]
 then
-  echo "Se han encontrado errores de ejecución graves. Abortando"
-  echo "Revisar archivo errores2.txt en el directorio $ResultsDirName"
+  echo "Found Fatal errors during execution. Aborting"
+  echo "Read file errors2 to see the errors and in which files"
+  echo "FAILURE"
   exit -2
 fi
-rm errores2.txt
 
-#Comprobar que el número de archivos es correcto
-#Pueden estar todos los archivos pero no estar los archivos
-#completos -- Esto se comprueba más tarde
-qtyG=$(ls R*/R*_Global.out | wc -l)
+#Check if the number of output files is correct.
+#If the number is not correct is a fatal error and the user
+# is informed in which runs the amount does not match, and
+# then the scripts exits.
+#The user must figure out what to do with those runs.
+qtyG=$(ls R*_Global.out | wc -l)
 qtyG=$(($qtyG * 2))
-qtyL=$(ls R*/R*_G?N*.out | wc -l)
-if [ $qtyG == $qtyL ]
+qtyL=$(ls R*_G*N*.out | wc -l)
+if [ "$qtyG" == "$qtyL" ]
 then
-  echo "El numero de ficheros G($qtyG) y L($qtyL) coincide"
+  echo "Number of G($qtyG) and L($qtyL) files match"
 else
-  #Si faltan archivos, se indican cuales faltan
-  echo "Faltan ejecuciones Locales o globales"
-  for ((i=1; i<$maxIndex; i++))
+  echo "Lacking Local($qtyL) or global($qtyG) files. Aborting"
+  echo "Lacking Local($qtyL) or global($qtyG) files. Aborting" > errores2.txt
+  for ((i=0; i<$maxIndex; i++))
   do
-    qtyEx=$(grep Tex -r Run$i | wc -l)
-    qtyIt=$(grep Top -r Run$i | wc -l)
+    qtyEx=$(grep T_total R"$i"_Global.out | wc -l)
+    qtyIt=$(grep T_iter R"$i"_G*N*.out | wc -l)
     qtyEx=$(($qtyEx * 2))
-    if [ $qtyEx -ne $qtyIt ] 
+    if [ "$qtyEx" -ne "$qtyIt" ] 
     then
       diff=$(($totalEjGrupo-$qtyEx))
-      echo "Faltan archivos en Run$i"
+      echo "Files do not match at Run $i -- diff=$diff"
+      echo "Files do not match at Run $i -- diff=$diff" >> errores2.txt
     fi
   done
+  echo "FAILURE"
   exit -1
 fi
+rm errores2.txt
 
-#grep -rn "2.\." R* TODO Testear que el tiempo teorico maximo es valido?
+# Check if there is any negative execution time
+# Only invalid IDs are stored
+rm -f tmp.txt
+touch tmp.txt
+exec_ids=($(grep -n "T_total" R*_Global.out | grep - | cut -d '_' -f1 | cut -d 'R' -f2))
+exec_line=($(grep -n "T_total" R*_Global.out | grep - | cut -d ':' -f2))
+for ((i=${#exec_ids[@]}-1; i>=0; i--))
+do
+  first_line=$((${exec_line[$i]}-$exec_remove))
+  last_line=$(($first_line+$exec_total_lines-1))
+  echo "${exec_ids[$i]}:$first_line:$last_line" >> tmp.txt
+done
 
-#Comprobar si hay runs con tiempo negativos
-#Si los hay, reejecutar e informar de cuales son
-grep - */R* | grep Tex > errores.txt
-qty=$(wc -l errores.txt | cut -d ' ' -f1)
-if [ $qty -gt 0 ]
+# Check if there is any iter time higher than expected
+# Only invalid IDs are stored
+iter_times=($(grep "T_iter" R*_G*N*.out | cut -d ' ' -f2))
+iter_ids=($(grep "T_iter" R*_G*N*.out | cut -d '_' -f1 | cut -d 'R' -f2))
+iter_line=($(grep -n "T_iter" R*_G*N*.out | cut -d ':' -f2))
+for ((i=${#iter_times[@]}-1; i>=0; i--))
+do
+  is_invalid=$(echo ${iter_times[$i]}'>'$maxTime | bc -l)
+  if [ $is_invalid -eq 1 ]
+  then
+    first_line=$((${iter_line[$i]}-$iter_remove))
+    # Translate line number to Global file
+    first_line=$(($first_line/$iter_total_lines))
+    first_line=$(($first_line*$exec_total_lines+1))
+    last_line=$(($first_line+$exec_total_lines-1))
+    echo "${iter_ids[$i]}:$first_line:$last_line" >> tmp.txt
+  fi
+done
+
+#Clean data from collected erroneous executions
+qty=$(wc -l tmp.txt | cut -d ' ' -f1)
+if [ "$qty" -gt 0 ];
 then
-  echo "Se han encontrado errores de ejecución leves. Volviendo a ejecutar"
+  echo "Found minor execution errors. Executing again. Review file errores.txt."
+  echo "CHECKRUN -- Found errors" >> errores.txt
 
   while IFS="" read -r lineRun || [ -n "$lineRun" ]
   do
-    #Obtener datos de una ejecución erronea
-    run=$(echo $lineRun | cut -d 'R' -f3 | cut -d '_' -f1)
-    if [ $run -gt $maxIndex ]
-    then #Indice de ejecuciones posteriores echas a mano -- FIXME Eliminar?
-      realRun=$(($run - $maxIndex))
-      index=$run
-    else # Indice de las primeras ejecuciones
-      realRun=$run
-      index=$(($run + $maxIndex))
-    fi
-
-    echo "Run $run"
-    cd Run$realRun
-
-    #Arreglar ejecuccion
-
-    #1 - Borrar lineas erroneas
-    qty=$(grep -n - R* | grep Tex | wc -l)
-    for ((i=0; i<qty; i++))
-    do 
-      fin=$(grep -n - R* | grep Tex | cut -d ':' -f2 | head -n1)
-      init=$(($fin - 7))
-      sed -i ''$init','$fin'd' R${realRun}_Global.out
-
-      #Se borran las lineas de los ficheros locales asociados
-      aux=$(($fin / 8)) #Utilizado para saber de entre las ejecuciones del fichero, cual es la erronea
-      fin=$(($aux * 5))
-      init=$(($fin - 4))
-      for ((j=0; j<cantidadGrupos; j++)); do
-        sed -i ''$init','$fin'd' R${realRun}_G${j}*
-      done
+    #Obtain data of erroneous execution
+    run=$(echo $lineRun | cut -d ':' -f1)
+    echo "Run $run had an erroneous execution, cleaning bad data."
+    echo "Run$run----------------------------------------------" >> errores.txt
+
+    #1 - Delete erroneous lines in Global file
+    first_line=$(echo $lineRun | cut -d ':' -f2)
+    last_line=$(echo $lineRun | cut -d ':' -f3)
+
+    sed -n ''$first_line','$last_line'p' R${run}_Global.out >> errores.txt
+    sed -i ''$first_line','$last_line'd' R${run}_Global.out
+
+    #2 - Translate line numbers to Local files type
+    first_line=$(($first_line/$exec_total_lines))
+    first_line=$(($first_line*$iter_total_lines+1))
+    last_line=$(($first_line+$iter_total_lines-1))
+    #3 - Delete erroneous lines in Local files
+    for ((j=0; j<total_groups; j++)); 
+    do
+      sed -n ''$first_line','$last_line'p' R${run}_G${j}* >> errores.txt
+      sed -i ''$first_line','$last_line'd' R${run}_G${j}*
     done
+    echo "--------------------------------------------------" >> errores.txt
 
-    #2 - Reelanzar ejecucion
-    proc_list=$(grep Procs R${realRun}_Global.out | cut -d '=' -f3 | cut -d ',' -f1)
-    proc_parents=$(echo $proc_list | cut -d ' ' -f1)
-    proc_children=$(echo $proc_list | cut -d ' ' -f2)
-    nodes=8 # Maximo actual
-    if [ $proc_parents -gt $proc_children ]
-    then
-      nodes=$(($proc_parents / 20))
-    else
-      nodes=$(($proc_children / 20))
-    fi
-
-    sbatch -N $nodes $dir$execDir./singleRun.sh config$realRun.ini $index
-    cd $dir$ResultsDir$ResultsDirName
-
-  done < errores.txt
-  exit 0
+  done < tmp.txt
 fi
 
-#Comprobar que todas las ejecuciones tienen todas las ejecucciones que tocan
-#Solo es necesario comprobar el global.
+#Check if all repetitions for each Run have been executed
+#If any run lacks repetitions, the job is automatically launched again
+#If a run has even executed a repetition, is not launched as it could be in the waiting queue
 qty_missing=0
-cd $dir$ResultsDir$ResultsDirName
-for ((i=1; i<$maxIndex; i++))
+for ((run=0; run<$maxIndex; run++))
 do
-  qtyEx=$(grep Tex -r Run$i | wc -l)
-  if [ $qtyEx -ne $totalEjGrupo ]
+  if [ -f "R${run}_Global.out" ]
   then
-    diff=$(($totalEjGrupo-$qtyEx))
-    qty_missing=$(($qty_missing+1))
-    echo "Faltan en $i, $diff ejecuciones"
+    qtyEx=$(grep T_total R"$run"_Global.out | wc -l)
+    if [ "$qtyEx" -ne "$totalEjGrupo" ];
+    then
+      #1 - Obtain config file name and repetitions to perform
+      diff=$(($totalEjGrupo-$qtyEx))
+      qty_missing=$(($qty_missing+$diff))
+      config_file="$common_name$run.ini"
+      if [ $limit_time_exec -ne 0 ] #Max time per execution in seconds
+      then
+        limit_time=$(($limit_time_exec*$diff/60+1))
+      fi
+
+      #2 - Obtain number of nodes needed
+      node_qty=$(bash $dir$execDir/BashScripts/getMaxNodesNeeded.sh $config_file $dir $cores)
+
+      #3 - Launch execution
+      echo "Run$run lacks $diff repetitions"
+      use_extrae=0
+      sbatch -p $partition -N $node_qty -t $limit_time $dir$execDir./generalRun.sh $dir $cores $config_file $use_extrae $run $diff
+    fi
+  else
+    echo "File R${run}_Global.out does not exist -- Could it be it must still be executed?"
   fi
 done
 
-if [ $qty_missing -eq 0 ]
+if [ "$qty_missing" -eq "0" ];
 then
-  echo "Todos los archivos tienen $totalEjGrupo ejecuciones"
+  echo "SUCCESS"
+else
+  echo "REPEATING - A total of $qty_missing executions are being repeated"
 fi

Exec/Extrae/extrae.xml

@@ -97,7 +97,7 @@
 
   <syscall enabled="no" />
 
-  <merge enabled="yes" 
+  <merge enabled="no" 
     synchronization="default"
     tree-fan-out="16"
     max-memory="512"

Exec/Extrae/trace_worker.sh

+#!/bin/bash
+dir="/home/martini/malleability_benchmark"
+codeDir="/Codes/build"
+
+export EXTRAE_CONFIG_FILE=extrae.xml
+export LD_PRELOAD=$EXTRAE_HOME/lib/libmpitrace.so
+
+$dir$codeDir/./a.out

Exec/PythonCodes/read_multiple.py

+import sys
+import glob
+import os
+from datetime import date
+from enum import Enum
+
+GENERAL_SECTION = "[general]"
+RESIZE_SECTION = "[resize"
+STAGE_SECTION = "[stage"
+END_SECTION_DELIMITER = ";end"
+
+class Config_section(Enum):
+    INVALID=0
+    GENERAL=1
+    RESIZE=2
+    STAGE=3
+
+    P_TOTAL_RESIZES="Total_Resizes"
+    P_TOTAL_STAGES="Total_Stages"
+    P_GRANULARITY="Granularity"
+    P_SDR="SDR"
+    P_ADR="ADR"
+    P_RIGID="Rigid"
+
+    P_STAGE_TYPE="Stage_Type"
+    P_STAGE_BYTES="Stage_Bytes"
+    P_STAGE_TIME_CAPPED="Stage_Time_Capped"
+    P_STAGE_TIME="Stage_Time"
+
+    P_RESIZE_ITERS="Iters"
+    P_RESIZE_PROCS="Procs"
+    P_RESIZE_FACTORS="FactorS"
+    P_RESIZE_DIST="Dist"
+    P_RESIZE_REDISTRIBUTION_METHOD="Redistribution_Method"
+    P_RESIZE_REDISTRIBUTION_STRATEGY="Redistribution_Strategy"
+    P_RESIZE_SPAWN_METHOD="Spawn_Method"
+    P_RESIZE_SPAWN_STRATEGY="Spawn_Strategy"
+
+    @classmethod
+    def has_key(cls, name):
+      return any(x.value == name for x in cls)
+
+def is_ending_of_section(line):
+  if(END_SECTION_DELIMITER in line):
+    return True
+  return False
+
+def is_a_general_section(line):
+  if(line == GENERAL_SECTION):
+    return True
+  return False
+
+def is_a_resize_section(line):
+  if(RESIZE_SECTION in line and not is_ending_of_section(line)):
+      return True
+  return False
+
+def is_a_stage_section(line):
+  if(STAGE_SECTION in line and not is_ending_of_section(line)):
+      return True
+  return False
+
+def process_line(line, data):
+  key,value = line.split('=')
+  if(not Config_section.has_key(key)):
+    print("Unknown parameter " + key)
+    return False
+  
+  if(',' in value):
+    value = value.split(',')
+    for i in range(len(value)):
+      try:
+        value[i] = float(value[i])
+        if value[i] == int(value[i]):
+            value[i] = int(value[i])
+      except ValueError:
+        print("Unable to convert to number - Not a fatal error")
+  else:
+    try:
+      value = float(value)
+      if value == int(value):
+        value = int(value)
+    except ValueError:
+      print("Unable to convert to number - Not a fatal error")
+    
+
+  data[key]=value
+  return True
+
+def process_file(file_name):
+  f = open(file_name, "r")
+  lines = f.read().splitlines()
+  section_type = Config_section.INVALID
+  general_data = {}
+  stages_data=[]
+  resizes_data=[]
+  processing=0
+  for line in lines:
+    if(section_type != Config_section.INVALID):
+      if(is_ending_of_section(line)):
+        section_type = Config_section.INVALID
+      else:
+        process_line(line, processing)
+    elif(is_a_general_section(line)):
+      section_type = Config_section.GENERAL
+      processing = general_data
+    elif(is_a_resize_section(line)):
+      section_type = Config_section.RESIZE
+      resizes_data.append({})
+      processing = resizes_data[len(resizes_data)-1]
+    elif(is_a_stage_section(line)):
+      section_type = Config_section.STAGE
+      stages_data.append({})
+      processing = stages_data[len(stages_data)-1]
+
+#  print(general_data)
+#  print(stages_data)
+#  print(resizes_data)
+  f.close()
+  return general_data,stages_data,resizes_data
+
+def general_section_write(f, general_data):
+    f.write(GENERAL_SECTION + "\n")
+    keys = list(general_data.keys())
+    values = list(general_data.values())
+    for i in range(len(keys)):
+        f.write(keys[i] + "=" + str(values[i]) + "\n")
+    f.write(END_SECTION_DELIMITER + " " + GENERAL_SECTION + "\n")
+
+def stage_section_write(f, stage_data, section_index):
+    f.write(STAGE_SECTION + str(section_index) + "]\n")
+    keys = list(stage_data.keys())
+    values = list(stage_data.values())
+    for i in range(len(keys)):
+        f.write(keys[i] + "=" + str(values[i]) + "\n")
+    f.write(END_SECTION_DELIMITER + " " + STAGE_SECTION + str(section_index) + "]\n")
+
+def resize_section_write(f, resize_data, section_index):
+    f.write(RESIZE_SECTION + str(section_index) + "]\n")
+    keys = list(resize_data.keys())
+    values = list(resize_data.values())
+    for i in range(len(keys)):
+        f.write(keys[i] + "=" + str(values[i]) + "\n")
+    f.write(END_SECTION_DELIMITER + " " + RESIZE_SECTION + str(section_index) + "]\n")
+
+
+def write_output_file(datasets, common_output_name, output_index):
+    file_name = common_output_name + str(output_index) + ".ini"
+    total_stages=int(datasets[0][Config_section.P_TOTAL_STAGES.value])
+    total_resizes=int(datasets[0][Config_section.P_TOTAL_RESIZES.value])+1
+
+    f = open(file_name, "w")
+    general_section_write(f, datasets[0])
+
+    for i in range(total_stages):
+        stage_section_write(f, datasets[i+1], i)
+    for i in range(total_resizes):
+        resize_section_write(f, datasets[i+1+total_stages], i)
+    f.close()
+    
+
+def check_sections_assumptions(datasets):
+    total_resizes=int(datasets[0][Config_section.P_TOTAL_RESIZES.value])+1
+    total_stages=int(datasets[0][Config_section.P_TOTAL_STAGES.value])
+
+    adr = datasets[0][Config_section.P_ADR.value]
+    for i in range(total_resizes):
+        #Not valid if trying to use thread strategy and adr(Async data) is 0
+        if adr==0 and (datasets[total_stages+1+i][Config_section.P_RESIZE_SPAWN_STRATEGY.value] == 2 or datasets[total_stages+1+i][Config_section.P_RESIZE_REDISTRIBUTION_STRATEGY.value] == 2):
+            return False
+        #Not valid if the strategies are different
+        if datasets[total_stages+1+i][Config_section.P_RESIZE_SPAWN_STRATEGY.value] != datasets[total_stages+1+i][Config_section.P_RESIZE_REDISTRIBUTION_STRATEGY.value]:
+            return False
+        #Not valid if resize is to the same amount of processes
+        if i>0:
+            if datasets[total_stages+1+i][Config_section.P_RESIZE_PROCS.value] == datasets[total_stages+i][Config_section.P_RESIZE_PROCS.value]:
+                return False
+    return True
+
+def correct_adr(sdr, adr_percentage, w_general_dataset):
+    #TODO Tener en cuenta que tanto sdr como adr pueden tener diferentes valores
+    if (adr_percentage != 0):
+        w_general_dataset[Config_section.P_ADR.value] = sdr * (adr_percentage/100)
+    w_general_dataset[Config_section.P_SDR.value] = sdr * ((100.0-adr_percentage)/100)
+
+
+def create_output_files(common_output_name, general_data, resize_data, stage_data):
+
+    def read_parameter(level_index):
+        dictionary = write_datasets[ds_indexes[level_index]]
+        key = keys[level_index]
+        index = indexes[level_index]
+        max_index = mindexes[level_index]
+        values = lists[level_index]
+        finished=False
+
+        if(index == max_index):
+            index = 0
+            if(level_index+1 == len(lists)):
+                finished = True
+            else:
+                finished = read_parameter(level_index+1)
+
+        dictionary[key] = values[index]
+        if(key == Config_section.P_RESIZE_PROCS.value):
+            original_dictionary = datasets[ds_indexes[level_index]]
+            dictionary[Config_section.P_RESIZE_FACTORS.value] = original_dictionary[Config_section.P_RESIZE_FACTORS.value][index]
+        elif(key == Config_section.P_SDR.value or key == Config_section.P_ADR.value):
+            original_dictionary = datasets[ds_indexes[level_index]]
+            sdr = original_dictionary[Config_section.P_SDR.value]
+            adr_percentage = original_dictionary[Config_section.P_ADR.value][index]
+            correct_adr(sdr, adr_percentage, dictionary)
+
+        indexes[level_index] = index + 1
+        return finished
+
+
+    datasets=[general_data]
+    write_datasets=[general_data.copy()]
+    for dataset in resize_data:
+        datasets.append(dataset)
+        write_datasets.append(dataset.copy())
+    for dataset in stage_data:
+        datasets.append(dataset)
+        write_datasets.append(dataset.copy())
+
+    directory = "/Desglosed-" + str(date.today())
+    path = os.getcwd() + directory
+    os.mkdir(path, mode=0o775)
+    os.chdir(path)
+
+    lists=[] # Stores lists of those variables with multiple values
+    keys=[] # Stores keys of those variables with multiple values
+    indexes=[] # Stores actual index for each variable with multiple values
+    mindexes=[] # Stores len of lists of each variable with multiple values
+    ds_indexes=[] # Stores the index of the dataset where the variable is stored
+    #For each variable with a list of elements
+    for i in range(len(datasets)):
+        values_aux = list(datasets[i].values())
+        keys_aux = list(datasets[i].keys())
+        for j in range(len(values_aux)):
+            if type(values_aux[j]) == list and keys_aux[j] != Config_section.P_RESIZE_FACTORS.value:
+                keys.append(keys_aux[j])
+                lists.append(values_aux[j])
+                ds_indexes.append(i)
+                indexes.append(0)
+                mindexes.append(len(values_aux[j]))
+
+
+    #Get the first set of values
+    for i in range(len(lists)):
+        read_parameter(i)
+
+    #FIXME Deberia hacerse en otra parte
+    if (type(datasets[0][Config_section.P_SDR.value]) != list or type(datasets[0][Config_section.P_ADR.value]) != list):
+        sdr = datasets[0][Config_section.P_SDR.value]
+        adr_percentage = datasets[0][Config_section.P_ADR.value]
+        correct_adr(sdr, adr_percentage, write_datasets[0])
+
+    output_index=0
+    adr_corrected=False
+    while True:
+        if(check_sections_assumptions(write_datasets)):
+            write_output_file(write_datasets, common_output_name, output_index)
+#            for i in range(len(write_datasets)):
+#                print(write_datasets[i])
+#            print("\n\n\n------------------------------------------" + str(output_index) + " ADR=" + str(adr_corrected))
+            output_index+=1
+        finished = read_parameter(0)
+        if finished:
+            break
+    
+
+if(len(sys.argv) < 3):
+    print("Not enough arguments given.\nExpected usage: python3 read_multiple.py file.ini output_name")
+name = sys.argv[1]
+common_output_name = sys.argv[2]
+
+general_data, resize_data, stage_data = process_file(name)
+create_output_files(common_output_name, general_data, resize_data, stage_data)
+
+exit(1)

Exec/configuration.ini

+[general]
+Total_Resizes=1
+Total_Stages=4
+Granularity=100000
+SDR=1000.0
+ADR=0.0
+Rigid=1
+; end [general]
+[stage0]
+Stage_Type=0
+Stage_Bytes=0
+Stage_Time_Capped=0
+Stage_Time=0.01235
+;end [stage0]
+[stage1]
+Stage_Type=3
+Stage_Bytes=0
+Stage_Time_Capped=0
+Stage_Time=0.03
+;end [stage1]
+[stage2]
+Stage_Type=4
+Stage_Bytes=0
+Stage_Time_Capped=0
+Stage_Time=0.0027915324
+;end [stage2]
+[stage3]
+Stage_Type=4
+Stage_Bytes=33176880
+Stage_Time_Capped=0
+Stage_Time=0.040449
+;end [stage3]
+[resize0]
+Iters=5
+Procs=2
+FactorS=1
+Dist=compact
+Redistribution_Method=0
+Redistribution_Strategy=1
+Spawn_Method=0
+Spawn_Strategy=1
+;end [resize0]
+[resize1]
+Iters=30
+Procs=4
+FactorS=0.1
+Dist=compact
+Redistribution_Method=0
+Redistribution_Strategy=1
+Spawn_Method=0
+Spawn_Strategy=1
+;end [resize1]