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greedy.c
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greedy.c
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#include <stdio.h>
#include <stdlib.h>
#include <time.h>
/* My teacher did not supply me the inputs, so I generated the service
times randomly */
int *genjobs ( int n )
{
int *t, i;
t = (int *)malloc(n * sizeof(int));
for (i=0; i<n; ++i) {
t[i] = 1 + rand() % 30;
printf("%3d", t[i]);
if (i % 25 == 24) printf("\n");
}
if (n % 25) printf("\n");
return t;
}
/* Returns the running time of the kth counter having schedule s */
int runtime ( int *t, int *s, int k )
{
int i, T = 0;
for (i=0; i<k; ++i) T += t[s[i]];
return T;
}
/* Returns the maximum of the running times of the p processors */
int makespan ( int *t, int **S, int p )
{
int i, ms = -1, rt;
for (i=0; i<p; ++i) {
rt = runtime(t,S[i]+1,S[i][0]);
if (rt > ms) ms = rt;
}
return ms;
}
/* Returns the total waiting time of customers scheduled to counter k */
int waittime ( int *t, int *s, int k )
{
int i, rt = 0, wt = 0;
for (i=0; i<k; ++i) {
wt += rt;
rt += t[s[i]];
}
return wt;
}
/* Returns the sum of waittime() for all k */
int totalwaittime ( int *t, int **S, int p )
{
int i, wt = 0;
for (i=0; i<p; ++i) wt += waittime(t,S[i]+1,S[i][0]);
return wt;
}
/* Function to neatly print the schedule S on p counters. S contains
only the token numbers, so t also needs to be passed. */
void printschedule ( int **S, int p, int *t )
{
int i, j;
for (i=0; i<p; ++i) {
printf("Counter %2d: ", i);
for (j=1; j<=S[i][0]; ++j) {
printf("%3d (%2d) ", S[i][j], t[S[i][j]]);
if ((j < S[i][0]) && (j % 7 == 0)) printf("\n ");
}
printf("\n");
}
}
int **schedule1 ( int *t, int n, int p )
{
int **S, *freeat, i, j, min, minidx;
/* Allocate memory to S */
S = (int **)malloc(p * sizeof(int *));
for (j=0; j<p; ++j) {
/* No more than n entries are necessary for each processor including
the count at index zero. In fact, an allocation size of
1+(n-(p-1)) is safe. */
S[j] = (int *)malloc(n * sizeof(int));
S[j][0] = 0;
}
/* Array to store the f_j vales */
freeat = (int *)malloc(p * sizeof(int));
for (j=0; j<p; ++j) freeat[j] = 0;
for (i=0; i<n; ++i) {
/* Compute p-fold minimum. This takes O(p) time. This can be improved
to O(log p) time by using a min priority queue. But it is difficult
to break ties using a min priority queue in the fashion described
in the assignment. */
min = freeat[0]; minidx = 0;
for (j=1; j<p; ++j) {
if (freeat[j] < min) {
min = freeat[j];
minidx = j;
}
}
++S[minidx][0];
S[minidx][S[minidx][0]] = i;
freeat[minidx] += t[i];
}
free(freeat);
return S;
}
/* We want to merge sort t[] in the non-increasing order. But relocation
of elements in t[] lets us lose the initial association of the token
number i with t[i]. So we do not change t[] at all. We instead look
into t[] via the index array idx[]. Initially, we have idx[i] = i for
all i. When merge sort wants to relocate t[i] to index j, we put
idx[j] = i. This means that t[idx[j]] is supposed to contain t[i].
At the end, t[idx[0]], t[idx[1]], ..., t[idx[n-1]] is the desired
sorted sequence. */
void mergesort ( int *t, int L, int R, int *idx )
{
int L1, R1, L2, R2, i, j, k, *idxcpy;
if (R <= L) return;
L1 = L; R1 = (L + R) / 2; L2 = R1 + 1; R2 = R;
mergesort(t,L1,R1,idx);
mergesort(t,L2,R2,idx);
idxcpy = (int *)malloc((R - L + 1) * sizeof(int));
i = L1; j = L2; k = 0;
while ((i <= R1) && (j <= R2)) {
if (t[idx[i]] >= t[idx[j]]) {
idxcpy[k] = idx[i];
++i;
} else {
idxcpy[k] = idx[j];
++j;
}
++k;
}
while (i <= R1) {
idxcpy[k] = idx[i];
++i; ++k;
}
while (j <= R2) {
idxcpy[k] = idx[j];
++j; ++k;
}
for (i=0; i<=R-L; ++i) idx[L+i] = idxcpy[i];
free(idxcpy);
}
/* This is same as schedule1() with the exception that we look into t[]
via the index array idx[]. */
int **schedule2 ( int *t, int n, int p )
{
int **S, *freeat, *idx, i, j, min, minidx;
idx = (int *)malloc(n * sizeof(int));
for (i=0; i<n; ++i) idx[i] = i;
mergesort(t,0,n-1,idx);
S = (int **)malloc(p * sizeof(int *));
for (j=0; j<p; ++j) {
S[j] = (int *)malloc(n * sizeof(int));
S[j][0] = 0;
}
freeat = (int *)malloc(p * sizeof(int));
for (j=0; j<p; ++j) freeat[j] = 0;
for (i=0; i<n; ++i) {
min = freeat[0]; minidx = 0;
for (j=1; j<p; ++j) {
if (freeat[j] < min) {
min = freeat[j];
minidx = j;
}
}
++S[minidx][0];
S[minidx][S[minidx][0]] = idx[i];
freeat[minidx] += t[idx[i]];
}
free(freeat);
return S;
}
/* Modifies the schedule of Part 2 inline */
void schedule3 ( int **S, int p )
{
int i, j, tmp;
/* Reverse the schedule of each counter */
for (i=0; i<p; ++i) {
for (j=1; j<=S[i][0]/2; ++j) {
tmp = S[i][j];
S[i][j] = S[i][S[i][0]+1-j];
S[i][S[i][0]+1-j] = tmp;
}
}
}
/* Courtesy */
void freeall ( int **S1, int **S2, int p, int *t )
{
int i;
for (i=0; i<p; ++i) {
free(S1[i]);
free(S2[i]);
}
free(S1);
free(S2);
free(t);
}
int main ( int argc, char *argv[] )
{
int n, p;
int *t;
int **S1, **S2;
srand((unsigned int)time(NULL));
if (argc >= 3) {
n = atoi(argv[1]); p = atoi(argv[2]);
} else {
printf("Enter n and p: ");
scanf("%d%d", &n, &p);
}
printf("\nn = %d\np = %d\n\nEnter customer times:\n\n", n, p);
t = genjobs(n);
printf("\n+++ Schedule 1\n");
S1 = schedule1(t,n,p);
printschedule(S1,p,t);
printf("+++ Bank finishes at time %d\n", makespan(t,S1,p));
printf("+++ Total waiting time = %d\n", totalwaittime(t,S1,p));
printf("\n+++ Schedule 2\n");
S2 = schedule2(t,n,p);
printschedule(S2,p,t);
printf("+++ Bank finishes at time %d\n", makespan(t,S2,p));
printf("+++ Total waiting time = %d\n", totalwaittime(t,S2,p));
printf("\n+++ Schedule 3\n");
schedule3(S2,p);
printschedule(S2,p,t);
printf("+++ Bank finishes at time %d\n", makespan(t,S2,p));
printf("+++ Total waiting time = %d\n\n", totalwaittime(t,S2,p));
freeall(S1,S2,p,t);
exit(0);
}