-/* Copyright (c) 2006-2010, 2012-2014. The SimGrid Team.
+/* Copyright (c) 2006-2010, 2012-2015. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
#include "xbt/dynar.h"
#include "xbt/dict.h"
+#include "simgrid/link.h"
SG_BEGIN_DECL()
/** @brief Workstation datatype
resource with computing capabilities</em> and has a <em>name</em>.
@see SD_workstation_management */
-typedef xbt_dictelm_t SD_workstation_t;
-
-/** @brief Workstation access mode
- @ingroup SD_datatypes_management
-
- By default, a workstation resource is shared, i.e. several tasks
- can be executed at the same time on a workstation. The CPU power of
- the workstation is shared between the running tasks on the workstation.
- In sequential mode, only one task can use the workstation, and the other
- tasks wait in a FIFO.
-
- @see SD_workstation_get_access_mode(), SD_workstation_set_access_mode() */
-typedef enum {
- SD_WORKSTATION_SHARED_ACCESS, /**< @brief Several tasks can be executed at the same time */
- SD_WORKSTATION_SEQUENTIAL_ACCESS /**< @brief Only one task can be executed, the others wait in a FIFO. */
-} e_SD_workstation_access_mode_t;
-
-typedef enum {
- SD_LINK_SHARED,
- SD_LINK_FATPIPE
-} e_SD_link_sharing_policy_t;
+typedef sg_host_t SD_workstation_t;
/** @brief Link datatype
@ingroup SD_datatypes_management
links between two workstations.
@see SD_link_management */
-typedef struct SD_link *SD_link_t;
+typedef Link *SD_link_t;
/** @brief Task datatype
@ingroup SD_datatypes_management
@see SD_task_management */
typedef enum {
SD_NOT_SCHEDULED = 0, /**< @brief Initial state (not valid for SD_watch and SD_unwatch). */
- SD_SCHEDULABLE = 0x0001, /**< @brief A task becomes SD_SCHEDULABLE as soon as its dependencies are satisfied */
+ SD_SCHEDULABLE = 0x0001, /**< @brief A task becomes SD_SCHEDULABLE as soon as its dependencies are satisfied */
SD_SCHEDULED = 0x0002, /**< @brief A task becomes SD_SCHEDULED when you call function
SD_task_schedule. SD_simulate will execute it when it becomes SD_RUNNABLE. */
SD_RUNNABLE = 0x0004, /**< @brief A scheduled task becomes runnable is SD_simulate as soon as its dependencies are satisfied. */
- SD_IN_FIFO = 0x0008, /**< @brief A runnable task can have to wait in a workstation fifo if the workstation is sequential */
- SD_RUNNING = 0x0010, /**< @brief An SD_RUNNABLE or SD_IN_FIFO becomes SD_RUNNING when it is launched. */
- SD_DONE = 0x0020, /**< @brief The task is successfully finished. */
- SD_FAILED = 0x0040 /**< @brief A problem occurred during the execution of the task. */
+ SD_RUNNING = 0x0008, /**< @brief An SD_RUNNABLE task becomes SD_RUNNING when it is launched. */
+ SD_DONE = 0x0010, /**< @brief The task is successfully finished. */
+ SD_FAILED = 0x0020 /**< @brief A problem occurred during the execution of the task. */
} e_SD_task_state_t;
/** @brief Task kinds
@see SD_storage_management */
typedef xbt_dictelm_t SD_storage_t;
-/************************** AS handling *************************************/
-XBT_PUBLIC(xbt_dict_t) SD_as_router_get_properties(const char *as);
-XBT_PUBLIC(const char*) SD_as_router_get_property_value(const char * as,
- const char *name);
-
-/************************** Link handling ***********************************/
-/** @defgroup SD_link_management Links
- * @brief Functions for managing the network links
- *
- * This section describes the functions for managing the network links.
- *
- * A link is a network node represented as a <em>name</em>, a <em>current
- * bandwidth</em> and a <em>current latency</em>. The links are created
- * when you call the function SD_create_environment.
- *
- * @see SD_link_t
- * @{
- */
-XBT_PUBLIC(const SD_link_t *) SD_link_get_list(void);
-XBT_PUBLIC(int) SD_link_get_number(void);
-XBT_PUBLIC(void *) SD_link_get_data(SD_link_t link);
-XBT_PUBLIC(void) SD_link_set_data(SD_link_t link, void *data);
-XBT_PUBLIC(const char *) SD_link_get_name(SD_link_t link);
-XBT_PUBLIC(double) SD_link_get_current_bandwidth(SD_link_t link);
-XBT_PUBLIC(double) SD_link_get_current_latency(SD_link_t link);
-XBT_PUBLIC(e_SD_link_sharing_policy_t) SD_link_get_sharing_policy(SD_link_t
- link);
-/** @} */
-
/************************** Workstation handling ****************************/
/** @defgroup SD_workstation_management Workstations
*/
XBT_PUBLIC(SD_workstation_t) SD_workstation_get_by_name(const char *name);
XBT_PUBLIC(const SD_workstation_t *) SD_workstation_get_list(void);
-XBT_PUBLIC(int) SD_workstation_get_number(void);
+XBT_PUBLIC(int) SD_workstation_get_count(void);
XBT_PUBLIC(void) SD_workstation_set_data(SD_workstation_t workstation,
void *data);
XBT_PUBLIC(void *) SD_workstation_get_data(SD_workstation_t workstation);
SD_workstation_t dst);
XBT_PUBLIC(int) SD_route_get_size(SD_workstation_t src,
SD_workstation_t dst);
-XBT_PUBLIC(double) SD_workstation_get_power(SD_workstation_t workstation);
-XBT_PUBLIC(double) SD_workstation_get_available_power(SD_workstation_t
+XBT_PUBLIC(double) SD_workstation_get_speed(SD_workstation_t workstation);
+XBT_PUBLIC(double) SD_workstation_get_available_speed(SD_workstation_t
workstation);
XBT_PUBLIC(int) SD_workstation_get_cores(SD_workstation_t workstation);
-XBT_PUBLIC(e_SD_workstation_access_mode_t)
- SD_workstation_get_access_mode(SD_workstation_t workstation);
-XBT_PUBLIC(void) SD_workstation_set_access_mode(SD_workstation_t
- workstation,
- e_SD_workstation_access_mode_t
- access_mode);
XBT_PUBLIC(double) SD_workstation_get_computation_time(SD_workstation_t workstation,
double flops_amount);
-XBT_PUBLIC(double) SD_route_get_current_latency(SD_workstation_t src,
+XBT_PUBLIC(double) SD_route_get_latency(SD_workstation_t src,
SD_workstation_t dst);
-XBT_PUBLIC(double) SD_route_get_current_bandwidth(SD_workstation_t src,
+XBT_PUBLIC(double) SD_route_get_bandwidth(SD_workstation_t src,
SD_workstation_t dst);
XBT_PUBLIC(double) SD_route_get_communication_time(SD_workstation_t src,
SD_workstation_t dst,
double bytes_amount);
-XBT_PUBLIC(SD_task_t) SD_workstation_get_current_task(SD_workstation_t workstation);
XBT_PUBLIC(xbt_dict_t)
SD_workstation_get_mounted_storage_list(SD_workstation_t workstation);
XBT_PUBLIC(xbt_dynar_t)
const SD_workstation_t *
workstation_list,
const double *flops_amount,
- const double *bytes_amount);
-XBT_PUBLIC(int) SD_task_get_kind(SD_task_t task);
+ const double *bytes_amount);
+XBT_PUBLIC(e_SD_task_kind_t) SD_task_get_kind(SD_task_t task);
XBT_PUBLIC(void) SD_task_schedule(SD_task_t task, int workstation_nb,
const SD_workstation_t *
workstation_list,
/** @defgroup SD_simulation Simulation
* @brief Functions for creating the environment and launching the simulation
*
- * This section describes the functions for initialising SimDag, launching
+ * This section describes the functions for initializing SimDag, launching
* the simulation and exiting SimDag.
*
* @{
XBT_PUBLIC(xbt_dynar_t) SD_dotload(const char *filename);
XBT_PUBLIC(xbt_dynar_t) SD_PTG_dotload(const char *filename);
XBT_PUBLIC(xbt_dynar_t) SD_dotload_with_sched(const char *filename);
-XBT_PUBLIC(void) uniq_transfer_task_name(SD_task_t task);
/** @} */
+SG_END_DECL()
+
#include "simgrid/instr.h"
-SG_END_DECL()
#endif