trick/trick_source/sim_services/ScheduledJobQueue/ScheduledJobQueue.cpp

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#include <iostream>
#include <sstream>
#include <stdlib.h>
#include <stdio.h>
#include "trick/ScheduledJobQueue.hh"
#include "trick/ScheduledJobQueueInstrument.hh"
#include "trick/TrickConstant.hh"
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/**
@design
-# Set #list to NULL
-# Set #list_list to 0
-# Set #curr_index to 0
-# Set #next_job_time to TRICK_MAX_LONG_LONG
*/
Trick::ScheduledJobQueue::ScheduledJobQueue( ) {
list = NULL ;
list_size = 0 ;
curr_index = 0 ;
next_job_time = TRICK_MAX_LONG_LONG ;
}
/**
@design
-# free list if it is not empty
*/
Trick::ScheduledJobQueue::~ScheduledJobQueue( ) {
if (list != NULL ) {
free(list) ;
}
}
/**
@design
-# Allocate additional memory for the incoming job
-# Find the insertion point in the queue based on the job_class, the phase,
the sim_object id, and the job_id
-# While searching for the correct insertion spot, copy all jobs that precede
the incoming job to the newly allocated queue space followed by the new job.
-# Copy jobs that are ordered after the incoming job to the new queue
-# Increment the size of the queue.
*/
int Trick::ScheduledJobQueue::push( JobData * new_job ) {
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unsigned int ii , jj ;
/* Allocate additional memory for the additional job in the queue */
JobData ** new_list = (JobData **)calloc( list_size + 1 , sizeof(JobData *)) ;
new_job->set_handled(true) ;
/* Find the correct insertion spot in the queue by comparing
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the job_class, the phase, the sim_object id, and the job_id in that order. */
/* While searching for the correct insertion spot, copy all jobs that precede
the incoming job to the newly allocated queue space. */
for ( ii = jj = 0 ; ii < list_size ; ii++ ) {
if ( list[ii]->job_class == new_job->job_class ) {
if ( list[ii]->phase == new_job->phase ) {
if ( list[ii]->sim_object_id == new_job->sim_object_id ) {
if ( list[ii]->id <= new_job->id ) {
new_list[jj++] = list[ii] ;
} else {
new_list[jj++] = new_job ;
break ;
}
} else if ( list[ii]->sim_object_id < new_job->sim_object_id ) {
new_list[jj++] = list[ii] ;
} else {
new_list[jj++] = new_job ;
break ;
}
} else if ( list[ii]->phase < new_job->phase ) {
new_list[jj++] = list[ii] ;
} else {
new_list[jj++] = new_job ;
break ;
}
} else if ( list[ii]->job_class < new_job->job_class ) {
new_list[jj++] = list[ii] ;
} else {
new_list[jj++] = new_job ;
break ;
}
}
/* Copy remaining jobs that execute after the incoming job to the new queue space. */
if ( ii == list_size ) {
/* ii == list_size means the incoming job is the last job */
new_list[list_size] = new_job ;
} else {
/* Inserted new job before the current job. Increment curr_index to point to the correct job */
if ( ii < curr_index ) {
curr_index++ ;
}
for ( ; ii < list_size ; ii++ ) {
new_list[jj++] = list[ii] ;
}
}
/* Increment the size of the queue */
list_size++ ;
/* Free the old queue space */
if ( list ) {
free(list) ;
}
/* Assign the queue pointer to the new space */
list = new_list ;
return(0) ;
}
/**
@design
-# Temporarily assign a high sim_object id to the incoming job. This
effectively removes the sim_object_id as an ordering field
-# Call Trick::ScheduledJobQueue::push( JobData * ) to add the job to the queue.
-# Restore the original sim_object id.
*/
int Trick::ScheduledJobQueue::push_ignore_sim_object( JobData * new_job ) {
int save_sim_object_id ;
int ret ;
/* Temorarily assign a really high sim_object id */
save_sim_object_id = new_job->sim_object_id ;
new_job->sim_object_id = 1000000 ;
/* push the job onto the scheduling queue as normal */
ret = push(new_job) ;
/* restore the original sim_object id */
new_job->sim_object_id = save_sim_object_id ;
return(ret) ;
}
/**
@design
-# Traverse the list of jobs looking for the job to delete.
-# If the job to delete is found
-# Allocate a new list that holds 1 less job than the current list
-# Copy all of the jobs that precede the deleted job to the new list
-# Copy all of the jobs that are after the delete job to the new list
-# Decrement the size of the list
-# Free the memory associated with the current list
-# Point the current list to the newly allocated list
*/
int Trick::ScheduledJobQueue::remove( JobData * delete_job ) {
unsigned int ii , jj ;
/* Find the job to delete in the queue. */
for ( ii = 0 ; ii < list_size ; ii++ ) {
if ( list[ii] == delete_job ) {
/* allocate a new list that holds one less element than the current list. */
JobData ** new_list = (JobData **)calloc( list_size - 1 , sizeof(JobData *)) ;
/* copy all of the jobs that are before the deleted job to the new list */
for ( jj = 0 ; jj < ii ; jj++ ) {
new_list[jj] = list[jj] ;
}
/* copy all of the jobs that are after the deleted job to the new list */
for ( jj = ii + 1 ; jj < list_size ; jj++ ) {
new_list[jj-1] = list[jj] ;
}
if ( ii <= curr_index ) {
curr_index-- ;
}
/* Decrement the size of the queue */
list_size-- ;
/* Free the old queue space */
free(list) ;
/* Assign the queue pointer to the new space */
list = new_list ;
return 0 ;
}
}
return -1 ;
}
/**
@design
-# Returns the #curr_index of the queue.
*/
unsigned int Trick::ScheduledJobQueue::get_curr_index() {
return curr_index ;
}
/**
@design
-# Sets #curr_index to the incoming value.
*/
int Trick::ScheduledJobQueue::set_curr_index(unsigned int value ) {
if ( value < list_size ) {
curr_index = value ;
}
return 0 ;
}
/**
@design
-# Sets #curr_index to 0.
*/
int Trick::ScheduledJobQueue::reset_curr_index() {
curr_index = 0 ;
return(0) ;
}
/**
@design
-# Returns #list_size
*/
unsigned int Trick::ScheduledJobQueue::size() {
return(list_size) ;
}
/**
@design
-# Returns !(#list_size)
*/
bool Trick::ScheduledJobQueue::empty() {
return(!list_size) ;
}
/**
@design
-# If #list is not NULL free it.
-# Set #list to NULL
-# Set #list_list to 0
-# Set #curr_index to 0
-# Set #next_job_time to TRICK_MAX_LONG_LONG
*/
int Trick::ScheduledJobQueue::clear() {
/* free job list if one exists */
if (list != NULL ) {
free(list) ;
}
/* set all list variables to initial cleared values */
list = NULL ;
list_size = 0 ;
curr_index = 0 ;
next_job_time = TRICK_MAX_LONG_LONG ;
return(0) ;
}
/**
@design
-# If the list is empty return NULL
-# Else return the current job without incrementing the #curr_index index.
*/
Trick::JobData * Trick::ScheduledJobQueue::top() {
/* return NULL if list is empty */
if ( list_size == 0 ) {
return(NULL) ;
}
/* else return current list item */
return(list[curr_index]) ;
}
/**
@design
-# If the #curr_index is greater than or equal to the #list_size
-# Set the #curr_index to the #list_size
-# Return NULL
-# Else while the list #curr_list is less than the list size
-# Increment the #curr_index.
-# Return the current job if the job is enabled.
*/
Trick::JobData * Trick::ScheduledJobQueue::get_next_job() {
JobData * curr_job ;
/* return NULL if we are at the end of the list */
if ( curr_index >= list_size ) {
curr_index = list_size ;
return(NULL) ;
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} else {
/* return the next enabled job, or NULL if we reach the end of the list */
while (curr_index < list_size ) {
curr_job = list[curr_index++] ;
if ( !curr_job->disabled ) {
return(curr_job) ;
}
}
}
return(NULL) ;
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}
/**
@design
-# While the list #curr_list is less than the list size
-# If the current queue job next call matches the incoming simulation time
-# If the job class is not a system class job, calculate the next
time it will be called by current time + job cycle.
-# Set the next job call time to TRICK_MAX_LONG_LONG if the next job call time
is greater than the stop time.
-# If the job's next job call time is lower than the overall next job call time
set the overall job call time to the current job's next job call time.
-# Increment the #curr_index.
-# Return the current job if the job is enabled.
-# Else
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-# If the job's next job call time is lower than the overall next job call time
set the overall job call time to the current job's next job call time.
-# Increment the #curr_index.
-# Return NULL when the end of the list is reached.
*/
Trick::JobData * Trick::ScheduledJobQueue::find_next_job(long long time_tics ) {
JobData * curr_job ;
long long next_call ;
/* Search through the rest of the queue starting at curr_index looking for
the next job with it's next execution time is equal to the current simulation time. */
while (curr_index < list_size ) {
curr_job = list[curr_index] ;
if ( curr_job->next_tics == time_tics ) {
/* If the job does not reschedule itself (system_job_classes), calculate the next time it will be called. */
if ( ! curr_job->system_job_class ) {
// calculate the next job call time
next_call = curr_job->next_tics + curr_job->cycle_tics ;
/* If the next time does not exceed the stop time, set the next call time for the module */
if (next_call > curr_job->stop_tics) {
curr_job->next_tics = TRICK_MAX_LONG_LONG ;
} else {
curr_job->next_tics = next_call;
}
/* Track next lowest job call time after the current time for jobs that match the current time. */
if ( curr_job->next_tics < next_job_time ) {
next_job_time = curr_job->next_tics ;
}
}
curr_index++ ;
if ( !curr_job->disabled ) {
return(curr_job) ;
}
} else {
/* Track next lowest job call time after the current time for jobs that do not match the current time */
if ( curr_job->next_tics > time_tics && curr_job->next_tics < next_job_time ) {
next_job_time = curr_job->next_tics ;
}
curr_index++ ;
}
}
return(NULL) ;
}
/**
@design
-# While the list #curr_list is less than the list size
-# If the current queue job next call matches the incoming simulation time
-# Increment the #curr_index.
-# Return the current job if the job is enabled.
-# Increment the #curr_index.
-# Return NULL when the end of the list is reached.
*/
Trick::JobData* Trick::ScheduledJobQueue::find_job(long long time_tics) {
JobData * curr_job ;
/* Search through the rest of the queue starting at curr_index looking for */
/* the next job with it's next execution time is equal to the current simulation time. */
while (curr_index < list_size) {
curr_job = list[curr_index] ;
if (curr_job->next_tics == time_tics ) {
if (!curr_job->disabled) {
curr_index++ ;
return(curr_job) ;
}
}
curr_index++ ;
}
return(NULL) ;
}
/**
@details
-# Sets #next_job_time to the incoming time
*/
int Trick::ScheduledJobQueue::set_next_job_call_time(long long in_time) {
next_job_time = in_time ;
return(0) ;
}
/**
@details
-# Return the next_job_call_time in counts of tics/second
Requirement [@ref r_exec_time_0]
*/
long long Trick::ScheduledJobQueue::get_next_job_call_time() {
unsigned int temp_index = curr_index ;
while (temp_index < list_size ) {
if ( list[temp_index]->next_tics < next_job_time ) {
next_job_time = list[temp_index]->next_tics ;
}
temp_index++ ;
}
return(next_job_time) ;
}
/**
@details
-# If the current job next call time is less than the overall next job call time, and is
greater than the current simulation time, set the overall next job call time to be the
job next call time.
*/
int Trick::ScheduledJobQueue::test_next_job_call_time(Trick::JobData * curr_job, long long time_tics) {
if ( curr_job->next_tics > time_tics && curr_job->next_tics < next_job_time ) {
next_job_time = curr_job->next_tics ;
}
return(0) ;
}
// Executes the jobs in a queue. saves and restores Trick::Executive::curr_job
int Trick::ScheduledJobQueue::execute_all_jobs() {
Trick::JobData * curr_job ;
int ret ;
reset_curr_index() ;
while ( (curr_job = get_next_job()) != NULL ) {
ret = curr_job->call() ;
if ( ret != 0 ) {
return ret ;
}
}
/* return 0 if there are no errors. */
return 0 ;
}
int Trick::ScheduledJobQueue::write_sched_queue( FILE * fp ) {
Trick::JobData * curr_job ;
unsigned int save_index ;
save_index = get_curr_index() ;
reset_curr_index() ;
while ( (curr_job = get_next_job()) != NULL ) {
if ( curr_job->job_class_name.compare("instrumentation") ) {
/* for each non instrumentation job write the job information to the open file pointer "fp" */
fprintf(fp, "%7d | %3d |%-25s| %-5d | %08.6f | %8.6g | %8g | %5.02f | %s\n",
!curr_job->disabled, curr_job->thread, curr_job->job_class_name.c_str(), curr_job->phase,
curr_job->start, curr_job->cycle, curr_job->stop, curr_job->frame_id,
curr_job->name.c_str());
}
}
set_curr_index(save_index) ;
return(0) ;
}
int Trick::ScheduledJobQueue::write_non_sched_queue( FILE * fp ) {
Trick::JobData * curr_job ;
unsigned int save_index ;
save_index = get_curr_index() ;
reset_curr_index() ;
while ( (curr_job = get_next_job()) != NULL ) {
if ( curr_job->job_class_name.compare("instrumentation") ) {
/* for each non instrumentation job write the job information to the open file pointer "fp" */
fprintf(fp, "%7d | %3d |%-25s| %-5d | | | | %5.02f | %s\n",
!curr_job->disabled, curr_job->thread, curr_job->job_class_name.c_str(), curr_job->phase,
curr_job->frame_id, curr_job->name.c_str());
}
}
set_curr_index(save_index) ;
return(0) ;
}
/**
@details
-# For all jobs in the queue
-# Create a new ScheduledJobQueueInstrument instance
-# Add the new instrumentation job to the "before" instrumentation job list
-# Return 0
*/
int Trick::ScheduledJobQueue::instrument_before(Trick::JobData * instrumentation_job) {
unsigned int ii ;
ScheduledJobQueueInstrument * new_job ;
for ( ii = 0 ; ii < list_size ; ii++ ) {
new_job = new ScheduledJobQueueInstrument( instrumentation_job, list[ii] );
list[ii]->add_inst_before(new_job) ;
}
return 0 ;
}
/**
@details
-# For all jobs in the queue
-# Create a new ScheduledJobQueueInstrument instance
-# Add the new instrumentation job to the "after" instrumentation job list
-# Return 0
*/
int Trick::ScheduledJobQueue::instrument_after(Trick::JobData * instrumentation_job) {
unsigned int ii ;
ScheduledJobQueueInstrument * new_job ;
/* Count the number of non-instrumentation jobs in the current queue. */
for ( ii = 0 ; ii < list_size ; ii++ ) {
new_job = new ScheduledJobQueueInstrument( instrumentation_job, list[ii] );
list[ii]->add_inst_after(new_job) ;
}
return 0 ;
}
/**
@details
-# For all jobs in the queue
-# Create a new ScheduledJobQueueInstrument instance
-# Add the new instrumentation job to the list
-# Return 0
*/
int Trick::ScheduledJobQueue::instrument_remove(std::string job_name) {
unsigned int ii ;
for ( ii = 0 ; ii < list_size ; ii++ ) {
list[ii]->remove_inst(job_name) ;
}
return 0 ;
}