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feat: add non_preemptive_priority_scheduling
in Process Scheduling Algorithm (#968)
* Added NonPreemptivePriorityScheduling * updating DIRECTORY.md * Added documentation and tests * Update process_scheduling_algorithms/non_preemptive_priority_scheduling.c Co-authored-by: David Leal <halfpacho@gmail.com> * Update process_scheduling_algorithms/non_preemptive_priority_scheduling.c Co-authored-by: David Leal <halfpacho@gmail.com> * Left out documentation and suggested changes * Update process_scheduling_algorithms/non_preemptive_priority_scheduling.c Co-authored-by: David Leal <halfpacho@gmail.com> * Update process_scheduling_algorithms/non_preemptive_priority_scheduling.c Co-authored-by: David Leal <halfpacho@gmail.com> * Update process_scheduling_algorithms/non_preemptive_priority_scheduling.c Co-authored-by: David Leal <halfpacho@gmail.com> * Update process_scheduling_algorithms/non_preemptive_priority_scheduling.c Co-authored-by: David Leal <halfpacho@gmail.com> * Update process_scheduling_algorithms/non_preemptive_priority_scheduling.c Co-authored-by: David Leal <halfpacho@gmail.com> * test case added with assert.h * Update process_scheduling_algorithms/non_preemptive_priority_scheduling.c Co-authored-by: Taj <tjgurwara99@users.noreply.github.com> * typedef | Snake Case naming * chore: apply suggestions from code review Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com> Co-authored-by: David Leal <halfpacho@gmail.com> Co-authored-by: Taj <tjgurwara99@users.noreply.github.com>
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@ -318,6 +318,9 @@
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* [Simpsons 1 3Rd Rule](https://github.com/TheAlgorithms/C/blob/HEAD/numerical_methods/simpsons_1_3rd_rule.c)
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* [Variance](https://github.com/TheAlgorithms/C/blob/HEAD/numerical_methods/variance.c)
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## Process Scheduling Algorithms
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* [Non Preemptive Priority Scheduling](https://github.com/TheAlgorithms/C/blob/master/process_scheduling_algorithms/non_preemptive_priority_scheduling.c)
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## Project Euler
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* Problem 1
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* [Sol1](https://github.com/TheAlgorithms/C/blob/HEAD/project_euler/problem_1/sol1.c)
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/**
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* @file
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* @brief
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* [Non-Preemptive Priority
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* Scheduling](https://en.wikipedia.org/wiki/Scheduling_(computing))
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* is a scheduling algorithm that selects the tasks to execute based on
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* priority.
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*
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* @details
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* In this algorithm, processes are executed according to their
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* priority. The process with the highest priority is to be executed first and
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* so on. In this algorithm, a variable is maintained known as the time quantum.
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* The length of the time quantum is decided by the user. The process which is
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* being executed is interrupted after the expiration of the time quantum and
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* the next process with the highest priority is executed. This cycle of
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* interrupting the process after every time quantum and resuming the next
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* process with the highest priority continues until all the processes have
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* been executed.
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* @author [Aryan Raj](https://github.com/aryaraj132)
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*/
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#include <assert.h> /// for assert
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#include <stdbool.h> /// for boolean data type
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#include <stdio.h> /// for IO operations (`printf`)
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#include <stdlib.h> /// for memory allocation eg: `malloc`, `realloc`, `free`, `exit`
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/**
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* @brief Structure to represent a process
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*/
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typedef struct node {
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int ID; ///< ID of the process node
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int AT; ///< Arrival Time of the process node
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int BT; ///< Burst Time of the process node
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int priority; ///< Priority of the process node
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int CT; ///< Completion Time of the process node
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int WT; ///< Waiting Time of the process node
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int TAT; ///< Turn Around Time of the process node
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struct node *next; ///< pointer to the node
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} node;
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/**
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* @brief To insert a new process in the queue
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* @param root pointer to the head of the queue
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* @param id process ID
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* @param at arrival time
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* @param bt burst time
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* @param prior priority of the process
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* @returns void
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*/
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void insert(node **root, int id, int at, int bt, int prior)
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{
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// create a new node and initialize it
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node *new = (node *)malloc(sizeof(node));
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node *ptr = *root;
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new->ID = id;
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new->AT = at;
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new->BT = bt;
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new->priority = prior;
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new->next = NULL;
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new->CT = 0;
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new->WT = 0;
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new->TAT = 0;
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// if the root is null, make the new node the root
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if (*root == NULL)
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{
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*root = new;
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return;
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}
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// else traverse to the end of the queue and insert the new node there
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while (ptr->next != NULL)
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{
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ptr = ptr->next;
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}
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ptr->next = new;
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return;
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}
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/*
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* @brief To delete a process from the queue
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* @param root pointer to the head of the queue
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* @param id process ID
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* @returns void
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*/
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void delete(node **root, int id)
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{
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node *ptr = *root, *prev;
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// if the root is null, return
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if (ptr == NULL)
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{
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return;
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}
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// if the root is the process to be deleted, make the next node the root
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if (ptr->ID == id)
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{
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*root = ptr->next;
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free(ptr);
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return;
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}
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// else traverse the queue and delete the process
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while (ptr != NULL && ptr->ID != id)
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{
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prev = ptr;
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ptr = ptr->next;
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}
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if (ptr == NULL)
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{
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return;
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}
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prev->next = ptr->next;
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free(ptr);
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}
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/**
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* @brief To show the process queue
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* @param head pointer to the head of the queue
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* @returns void
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*/
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void show_list(node *head)
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{
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printf("Process Priority AT BT CT TAT WT \n");
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while (head != NULL)
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{
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printf("P%d. %d %d %d %d %d %d \n", head->ID, head->priority, head->AT,
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head->BT, head->CT, head->TAT, head->WT);
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head = head->next;
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}
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}
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/**
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* @brief To length process queue
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* @param root pointer to the head of the queue
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* @returns int total length of the queue
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*/
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int l_length(node **root)
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{
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int count = 0;
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node *ptr = *root;
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while (ptr != NULL)
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{
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count++;
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ptr = ptr->next;
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}
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return count;
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}
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/**
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* @brief To update the completion time, turn around time and waiting time of
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* the processes
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* @param root pointer to the head of the queue
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* @param id process ID
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* @param ct current time
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* @param wt waiting time
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* @param tat turn around time
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* @returns void
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*/
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void update(node **root, int id, int ct, int wt, int tat)
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{
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node *ptr = *root;
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// If process to be updated is head node
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if (ptr != NULL && ptr->ID == id)
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{
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if (ct != 0)
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{
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ptr->CT = ct;
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}
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if (wt != 0)
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{
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ptr->WT = wt;
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}
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if (tat != 0)
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{
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ptr->TAT = tat;
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}
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return;
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}
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// else traverse the queue and update the values
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while (ptr != NULL && ptr->ID != id)
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{
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ptr = ptr->next;
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}
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if (ct != 0)
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{
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ptr->CT = ct;
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}
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if (wt != 0)
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{
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ptr->WT = wt;
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}
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if (tat != 0)
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{
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ptr->TAT = tat;
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}
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return;
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}
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/**
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* @brief To compare the priority of two processes based on their arrival time
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* and priority
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* @param a pointer to the first process
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* @param b pointer to the second process
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* @returns true if the priority of the first process is greater than the
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* the second process
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* @returns false if the priority of the first process is NOT greater than the
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* second process
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*/
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bool compare(node *a, node *b)
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{
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if (a->AT == b->AT)
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{
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return a->priority < b->priority;
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}
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else
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{
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return a->AT < b->AT;
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}
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}
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/**
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* @brief To calculate the average completion time of all the processes
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* @param root pointer to the head of the queue
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* @returns float average completion time
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*/
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float calculate_ct(node **root)
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{
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// calculate the total completion time of all the processes
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node *ptr = *root, *prior, *rpt;
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int ct = 0, i, time = 0;
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int n = l_length(root);
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float avg, sum = 0;
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node *duproot = NULL;
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// create a duplicate queue
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while (ptr != NULL)
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{
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insert(&duproot, ptr->ID, ptr->AT, ptr->BT, ptr->priority);
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ptr = ptr->next;
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}
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ptr = duproot;
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rpt = ptr->next;
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// sort the queue based on the arrival time and priority
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while (rpt != NULL)
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{
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if (!compare(ptr, rpt))
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{
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ptr = rpt;
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}
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rpt = rpt->next;
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}
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// ptr is the process to be executed first.
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ct = ptr->AT + ptr->BT;
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time = ct;
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sum += ct;
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// update the completion time, turn around time and waiting time of the
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// process
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update(root, ptr->ID, ct, 0, 0);
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delete (&duproot, ptr->ID);
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// repeat the process until all the processes are executed
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for (i = 0; i < n - 1; i++)
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{
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ptr = duproot;
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while (ptr != NULL && ptr->AT > time)
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{
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ptr = ptr->next;
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}
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rpt = ptr->next;
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while (rpt != NULL)
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{
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if (rpt->AT <= time)
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{
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if (rpt->priority < ptr->priority)
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{
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ptr = rpt;
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}
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}
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rpt = rpt->next;
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}
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ct += ptr->BT;
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time += ptr->BT;
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sum += ct;
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update(root, ptr->ID, ct, 0, 0);
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delete (&duproot, ptr->ID);
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}
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avg = sum / n;
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return avg;
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}
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/**
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* @brief To calculate the average turn around time of all the processes
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* @param root pointer to the head of the queue
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* @returns float average turn around time
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*/
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float calculate_tat(node **root)
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{
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float avg, sum = 0;
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int n = l_length(root);
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node *ptr = *root;
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// calculate the completion time if not already calculated
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if (ptr->CT == 0)
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{
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calculate_ct(root);
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}
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// calculate the total turn around time of all the processes
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while (ptr != NULL)
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{
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ptr->TAT = ptr->CT - ptr->AT;
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sum += ptr->TAT;
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ptr = ptr->next;
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}
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avg = sum / n;
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return avg;
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}
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/**
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* @brief To calculate the average waiting time of all the processes
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* @param root pointer to the head of the queue
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* @returns float average waiting time
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*/
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float calculate_wt(node **root)
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{
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float avg, sum = 0;
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int n = l_length(root);
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node *ptr = *root;
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// calculate the completion if not already calculated
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if (ptr->CT == 0)
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{
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calculate_ct(root);
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}
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// calculate the total waiting time of all the processes
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while (ptr != NULL)
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{
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ptr->WT = (ptr->TAT - ptr->BT);
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sum += ptr->WT;
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ptr = ptr->next;
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}
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avg = sum / n;
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return avg;
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}
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/**
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* @brief Self-test implementations
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* @returns void
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*/
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static void test()
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{
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// Entered processes
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// printf("ID Priority Arrival Time Burst Time \n");
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// printf("1 0 5 1 \n");
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// printf("2 1 4 2 \n");
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// printf("3 2 3 3 \n");
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// printf("4 3 2 4 \n");
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// printf("5 4 1 5 \n");
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node *root = NULL;
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insert(&root, 1, 0, 5, 1);
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insert(&root, 2, 1, 4, 2);
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insert(&root, 3, 2, 3, 3);
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insert(&root, 4, 3, 2, 4);
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insert(&root, 5, 4, 1, 5);
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float avgCT = calculate_ct(&root);
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float avgTAT = calculate_tat(&root);
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float avgWT = calculate_wt(&root);
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assert(avgCT == 11);
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assert(avgTAT == 9);
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assert(avgWT == 6);
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printf("[+] All tests have successfully passed!\n");
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// printf("Average Completion Time is : %f \n", calculate_ct(&root));
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// printf("Average Turn Around Time is : %f \n", calculate_tat(&root));
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// printf("Average Waiting Time is : %f \n", calculate_wt(&root));
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}
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/**
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* @brief Main function
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* @returns 0 on exit
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*/
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int main()
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{
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test(); // run self-test implementations
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return 0;
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}
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