Write this program in notepad and save it as _filename.vbs
name=inputbox("Whats your name?") msgbox("Have a good day, ") + name
Tuesday, 12 May 2015
VB Script : Fun Program
This is a fun VB Script program. if someone run this program in his pc then it will never end until you finish it from task manager in pc. this is for simple prank. have fun..
Write this program in notepad and save it as _filename.vbs
DO msgbox("manoj") LOOP
VB Script : Simple Program
Write this program in notepad and save it as _filename.vbs
pass=inputbox("password")
if pass="manoj" then msgbox("correct password")
else msgbox("password is not correct try again")
Wednesday, 6 May 2015
FIFO, SJF, Priority Scheduling, Round Robin Scheduling Algorithms
Scheduling algorithms are very important concept in operating system to decide which process has to allocate CPU next. there are many types of Scheduling algorithms e.g. FIFO (first in first out), SJF (Shortest job first), Priority scheduling, RR (round robin), Multilevel queue, Multilevel feedback queue.
following program describes FIFO, SJF, RR and Priority scheduling algorithms.
following program describes FIFO, SJF, RR and Priority scheduling algorithms.
#include<stdio.h> #include<stdlib.h> #include<time.h> #include<string.h> struct templet { char name[8]; int at,st,pt,ft,tat,wt,priority,remain,flag; }p[20],temp; int n,Bu[20],Twt,Ttt,A[10],Wt[10],w,wait[50],turn[50]; float Awt,Att; char pname[20][20],c[20][20]; void Getdata(); void Gantt_chart(); void Calculate(); void chart(); void fcfs(); void sjf(); void rr(); void prio(); //srand(time(NULL)); int main() { int ch; do{ printf("\n1.FCFS\n2.SJF\n3.Round Robin\n4.Priority\n5.exit"); printf("\nEnter choice : "); scanf("%d",&ch); switch(ch) { case 1: Getdata(); fcfs(); break; case 2:sjf(); break; case 3: rr(); break; case 4: prio(); break; }}while(ch!=5); } void fcfs() { int i,j,temp, temp1; Twt=0; Ttt=0; printf("\n\n FIRST COME FIRST SERVED ALGORITHM\n"); for(i=1;i<=n;i++) { for(j=i+1;j<=n;j++) { if(A[i]>A[j]) { temp=Bu[i]; temp1=A[i]; Bu[i]=Bu[j]; A[i]=A[j]; Bu[j]=temp; A[j]=temp1; strcpy(c[i],pname[i]); strcpy(pname[i],pname[j]); strcpy(pname[j],c[i]); } } } Calculate(); Gantt_chart(); chart(); } void sjf() { srand(time(NULL)); int no,i,j,fcnt=0,scnt=0; printf("\nEnter no of processes : "); scanf("%d",&no); for(i=0;i<no;i++) { printf("\n\nEnter process name : "); scanf("%s",p[i].name); p[i].at=rand()%50; printf("\nArrival time is %d ",p[i].at); p[i].pt=rand()%50; printf("\nEnter Burst time is %d ",p[i].pt); p[i].remain=p[i].pt; p[i].flag=0; } for(i=0;i<no;i++) { for(j=0;j<no;j++) { if(p[i].at<p[j].at) { temp=p[i]; p[i]=p[j]; p[j]=temp; } } } printf("\n\t Grant Chart : \n\t\t"); i=0; scnt=p[i].at; while(1) { if(p[i].flag==0) { printf("%s--->",p[i].name); p[i].remain--; scnt++; if(p[i].remain>0) { for(j=0;j<no;j++) { if(p[j].at<=scnt && p[j].flag==0) { if(p[i].remain>p[j].remain) { i=j; printf("- "); } } } } else { p[i].wt=scnt-p[i].pt-p[i].at; p[i].tat=scnt-p[i].at; p[i].flag=1; fcnt++; printf("+"); if(fcnt==no) break; if(i<no-1) i++; else i=0; for(j=i;j>0;j--) if(p[j].remain < p[i].remain && p[j].flag==0) i=j; } } else i++; } printf(" Finish\n"); fcnt=0,scnt=0; printf("\n\tProcess \t burst time \t waiting time \t turn around time"); for(i=0;i<no;i++) { printf("\n\t%s\t\t\t%d\t\t%d\t \t%d",p[i].name,p[i].pt,p[i].wt,p[i].tat); fcnt+=p[i].wt; scnt+=p[i].tat; } printf("\n-------------------------------------------------------------------"); printf("\n\n\t\t\t\tAverage : \t %d\t \t%d",fcnt/no,scnt/no); } void rr() { srand(time(NULL)); int no,i,j,fcnt=0,scnt=0,interval; printf("\nEnter no of processes : "); scanf("%d",&no); for(i=0;i<no;i++) { printf("\nEnter process name : "); scanf("%s",p[i].name); //p[i].pt=rand()%50; printf("\nenter Burst time : "); scanf("%d",&p[i].pt); p[i].remain=p[i].pt; p[i].flag=0; } //interval=rand()%10; printf("\nenter time quantum : "); scanf("%d",&interval); printf("\n\t Grant Chart : \n\t\t"); i=0; while(1) { for(i=0;i<no;i++) { if(p[i].flag==0) { if(p[i].remain<=interval) { printf("-- %s (C)--",p[i].name); scnt+=p[i].remain; p[i].wt=scnt-p[i].pt; p[i].tat=scnt; p[i].flag=1; fcnt++; } else { printf("-- %s --",p[i].name); p[i].remain-=interval; scnt+=interval; } } } if(fcnt==no) break; } printf("Finish"); fcnt=0,scnt=0; printf("\n\tProcess \t burst time \t waiting time \t turn around time"); for(i=0;i<no;i++) { printf("\n\t%s\t\t\t%d\t\t%d\t \t%d",p[i].name,p[i].pt,p[i].wt,p[i].tat); fcnt+=p[i].wt; scnt+=p[i].tat; } printf("\n-----------------------------------------------------------------\n"); printf("\n\n\t\t\t\tAverage : \t %d\t \t%d",fcnt/no,scnt/no); } void prio() { srand(time(NULL)); int no,i,j,fcnt=0,scnt=0; printf("\nEnter no of processes : "); scanf("%d",&no); for(i=0;i<no;i++) { printf("\nEnter process name : "); scanf("%s",p[i].name); p[i].pt=rand()%50; printf("\nBurst time is %d ",p[i].pt); p[i].priority=rand()%10; printf("\npriority is %d ",p[i].priority); } for(i=0;i<no;i++) { for(j=0;j<no;j++) { if(p[i].priority<p[j].priority) { temp=p[i]; p[i]=p[j]; p[j]=temp; } } } printf("\n\t Grant Chart : \n\t\t"); for(i=0;i<no;i++) { p[i].st=fcnt; fcnt+=p[i].pt; p[i].wt=fcnt-p[i].pt; p[i].tat=fcnt; printf("%s -->",p[i].name); } printf("Finish"); fcnt=0; printf("\n\tProcess \t burst time \t waiting time \t turn around time"); for(i=0;i<no;i++) { printf("\n\t%s\t\t\t%d\t\t%d\t \t%d",p[i].name,p[i].pt,p[i].wt,p[i].tat); fcnt+=p[i].wt; scnt+=p[i].tat; } printf("\n\n\t\t\t\tAverage : \t %d\t \t%d",fcnt/no,scnt/no); } void Getdata() { srand(time(0)); int i; printf("\n Enter the number of processes: "); scanf("%d",&n); for(i=1;i<=n;i++) { fflush(stdin); printf("\n Enter the process name: "); scanf("%s",&pname[i]); Bu[i] = rand()%50; printf(" burst time for process %s is %d \n",pname[i],Bu[i]); A[i] = rand()%50; printf(" Arrival time for process %s is %d \n",pname[i],A[i]); } } void Gantt_chart() { int i; printf("\n\n\t\t\tGANTT CHART\n"); printf("\n-----------------------------------------------------------\n"); for(i=1;i<=n;i++) printf("|\t%s\t",pname[i]); printf("|\t\n"); printf("\n-----------------------------------------------------------\n"); printf("\n"); for(i=1;i<=n;i++) printf("%d\t\t",Wt[i]); printf("%d",Wt[n]+Bu[n]); //turn[i]=Wt[n]+Bu[n]; printf("\n-----------------------------------------------------------\n"); printf("\n"); } void Calculate() { int i; Wt[1]=0; wait[1]=0; turn[1]=Bu[1]; for(i=2;i<=n;i++) { Wt[i]=Bu[i-1]+Wt[i-1]; wait[i]=Wt[i]; turn[i]=Wt[i]+Bu[i]; } for(i=1;i<=n;i++) { Twt=Twt+(Wt[i]-A[i]); Ttt=Ttt+((Wt[i]+Bu[i])-A[i]); } Att=(float)Ttt/n; Awt=(float)Twt/n; printf("\n\n Average Turn around time=%3.2f ms ",Att); printf("\n\n AverageWaiting Time=%3.2f ms",Awt); } void chart(){ int k; printf("name\t burst time\t Arrival time \t Waiting time turnaround time\n"); for (k=1;k<=n;k++) { printf("%s\t %d\t\t %d\t\t\t %d\t\t%d\n",pname[k],Bu[k],A[k],wait[k],turn[k]); } }
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