Convert JAVA code to MATLAB code

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Partha
Partha on 3 Apr 2015
Commented: Futun Salem fayez alharbi on 30 Oct 2022
Can any one convert the java code (see the attachments) to MATLAB code (m file)
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sambhav jain
sambhav jain on 19 Feb 2020
is there any sofware available for conversion of java code to matlab format?
Futun Salem fayez alharbi
Futun Salem fayez alharbi on 30 Oct 2022
#include bits/stdc++.h using namespace std;
int maxProductSubset(int a[], int n) { if (n == 1) return a[0];
// Find count of negative numbers, count
// of zeros, negative number
// with least absolute value
// and product of non-zero numbers
int max_neg = INT_MIN;
int count_neg = 0, count_zero = 0;
int prod = 1;
for (int i = 0; i < n; i++) {
// If number is 0, we don't
// multiply it with product.
if (a[i] == 0) {
count_zero++;
continue;
}
// Count negatives and keep
// track of negative number
// with least absolute value
if (a[i] < 0) {
count_neg++;
max_neg = max(max_neg, a[i]);
}
prod = prod * a[i];
}
// If there are all zeros
if (count_zero == n)
return 0;
// If there are odd number of
// negative numbers
if (count_neg & 1) {
// Exceptional case: There is only
// negative and all other are zeros
if (count_neg == 1 &&
count_zero > 0 &&
count_zero + count_neg == n)
return 0;
// Otherwise result is product of
// all non-zeros divided by
//negative number with
// least absolute value
prod = prod / max_neg;
}
return prod;
}
// Driver Code int main() { int a[] = { -1, -1, -2, 4, 3 }; int n = sizeof(a) / sizeof(a[0]); cout << maxProductSubset(a, n); return 0; }

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Answers (2)

praneeth ranga
praneeth ranga on 3 Sep 2017
Edited: Walter Roberson on 4 Sep 2017
package kcjava;
import org.apache.commons.math3.distribution.NormalDistribution;
import org.graphstream.graph.Edge;
import org.graphstream.graph.Element;
import org.graphstream.graph.Graph;
import org.graphstream.graph.Node;
import org.graphstream.graph.implementations.SingleGraph;
import java.util.*;
class GraphOpers{
LinkedList<String> nonLeafNodes(LinkedList<GraphData> ld){
LinkedList<String> al = new LinkedList<String>();
for(int i=0;i<ld.size();i++){
for(int j=0;j<ld.size();j++){
for(int k=0;k+1<=ld.get(j).pred.length();k=k+2){
if(ld.get(i).act.equals(ld.get(j).pred.substring(k,k+1)) && !al.contains(ld.get(i).act) && !ld.get(j).pred.equals("NULL")){
al.add(ld.get(i).act);
break;
}
}
}
}
return al;
}
GraphData findNode(LinkedList<GraphData> ld,String ss){
for(int i=0;i<ld.size();i++){
if(ld.get(i).act.equals(ss)){
return ld.get(i);
}
}
return null;
}
int sizeofGraph(LinkedList<GraphData> ld,int n){
LinkedList<String> al = new LinkedList<String>();
for(int i=0;i<ld.size();i++){
GraphData dd = ld.get(i);
if(dd.pred.length()>1 && !al.contains(dd.pred) && !dd.pred.equals("NULL")){
al.addLast(dd.pred);
n=(int) (n-Math.floor(dd.pred.length()/2));
}
}
return n;
}
int[][] makeEdge(int g[][],int i,int j){
g[i][j]=1;
return g;
}
int fact(int n){
int j=1;
for(int i=2;i<=n;i++){
j=j*i;
}
return j;
}
float add(float z){
float res=z,temp=z;
for(int i=1;i<15;i++){
temp=temp*z*z/(2*i+1);
res=res+temp;
}
return res;
}
float erf(float z){
float pi = (float) 3.1415926,res=0;
for(int i=0;i<25;i++){
res=(float) (res+(Math.pow(-1,i)*Math.pow(z,2*i+1))/(fact(i)*(2*i+1)));
}
res=(float) (res*2/Math.sqrt(pi));
return res;
}
}
class GraphData{
String act;
String pred;
float period;
float sd;
int start;
int end;
GraphData(String act,String pred,float period,float sd,int start,int end){
this.act=act;
this.pred=pred;
this.sd=sd;
this.period=period;
this.start=start;
this.end=end;
}
}
class GraphNode{
float es;
float lc;
GraphNode(float es,float lc){
this.es=es;
this.lc=lc;
}
}
public class CPM {
public static void main(String[] args) {
LinkedList<GraphData> ld = new LinkedList<GraphData>();
LinkedList<GraphNode> ln = new LinkedList<GraphNode>();
LinkedList<Integer> lres = new LinkedList<Integer>();
LinkedList<Integer> tf = new LinkedList<Integer>();
LinkedList<Integer> ff = new LinkedList<Integer>();
LinkedList<String> al = new LinkedList<String>();
LinkedList<String> lc = new LinkedList<String>();
LinkedList<String> al1 = new LinkedList<String>();
Scanner sc = new Scanner(System.in);
System.setProperty("org.graphstream.ui.renderer", "org.graphstream.ui.j2dviewer.J2DGraphRenderer");
GraphOpers go = new GraphOpers();
int n,sog,cou=2;
float dt,v=0;
System.out.println("Enter number of activities:");
n= sc.nextInt();
System.out.println("Enter tm, tp, to,activity, predecessor:");
for(int i=0;i<n;i++){
float tm,tp,to;
tm=sc.nextFloat();to=sc.nextFloat();tp=sc.nextFloat();
float j=(to+4*tm+tp)/6;
float sd=(tp-to)/6;
GraphData d= new GraphData(sc.next(),sc.next(),j,sd,0,0);
ld.add(d);
}
al=go.nonLeafNodes(ld);
sog=go.sizeofGraph(ld,n)+2-n+al.size();
for(int i=0;i<ld.size();i++){
if(ld.get(i).pred.equals("NULL") && !ld.get(i).act.equals("DU")){
ld.get(i).start=1;
ld.get(i).end=cou;
cou++;
}
else if(!ld.get(i).pred.equals("NULL") && al.contains(ld.get(i).act)){
for(int j=0;j<ld.size();j++){
for(int k=0;k+1<=ld.get(j).pred.length();k=k+2){
GraphData gd1,gd2;
if(ld.get(j).pred.length()>1 && !al1.contains(ld.get(i).act) && ld.get(i).act.equals(ld.get(j).pred.substring(k,k+1)) && !ld.get(j).pred.equals("NULL")){
if(k-2>=0){
al1.add(ld.get(i).act);
gd1=go.findNode(ld,ld.get(i).pred.substring(0,1));
gd2=go.findNode(ld,ld.get(j).pred.substring(k-2,k-1));
ld.get(i).start=gd1.end;
ld.get(i).end=gd2.end;
for(int kk=0;kk<i;kk++){
if(ld.get(i).start==ld.get(kk).start && ld.get(i).end==ld.get(kk).end && i!=kk){
sog++;
ld.get(i).end=cou;
GraphData d= new GraphData("DU","NULL",0,0,cou,ld.get(kk).end);
cou++;
ld.add(d);
}
}
break;
}
else{
gd1=go.findNode(ld,ld.get(i).pred.substring(0,1));
al1.add(ld.get(i).act);
ld.get(i).start=gd1.end;
ld.get(i).end=cou;
cou++;
/*for(int kk=0;kk<i;kk++){
if(ld.get(i).start==ld.get(kk).start && ld.get(i).end==ld.get(kk).end && i!=kk){
sog++;
ld.get(i).end=cou;
cou++;
GraphData d= new GraphData("DU","NULL",0,0,cou,ld.get(kk).end);
ld.add(d);
}
}*/
break;
}
}
else if(ld.get(j).pred.length()<=1 && !al1.contains(ld.get(i).act) && ld.get(i).act.equals(ld.get(j).pred.substring(k,k+1)) && !ld.get(j).pred.equals("NULL")){
gd1=go.findNode(ld,ld.get(i).pred.substring(0,1));
al1.add(ld.get(i).act);
ld.get(i).start=gd1.end;
ld.get(i).end=cou;
cou++;
/* for(int kk=0;kk<i;kk++){
if(ld.get(i).start==ld.get(kk).start && ld.get(i).end==ld.get(kk).end && i!=kk){
sog++;
cou++;
ld.get(i).end=cou;
GraphData d= new GraphData("DU","NULL",0,0,cou,ld.get(kk).end);
ld.add(d);
}
}*/
break;
}
}
}
}
else if(!ld.get(i).pred.equals("NULL") && !al.contains(ld.get(i))){
GraphData gd =go.findNode(ld,ld.get(i).pred.substring(0,1));
ld.get(i).start=gd.end;
ld.get(i).end=cou;
}
}
for(int i=0;i<sog;i++){
GraphNode gn = new GraphNode(0,0);
ln.add(gn);
}
/*for(int i=0;i<ld.size();i++){
for(int j=0;j<ld.size();j++){
if(ld.get(i).start==ld.get(j).start && ld.get(i).end==ld.get(j).end && i!=j){
GraphNode gn = new GraphNode(0,0);
ln.add(gn);
cou++;
ld.get(j).end=cou;
GraphData d= new GraphData("DU","NULL",0,0,cou,ld.get(i).end);
ld.add(d);
}
}
}*/
for(int i=0;i<ld.size();i++){
System.out.println(ld.get(i).act+":("+ld.get(i).start+","+ld.get(i).end+")");
}
for(int i=0;i<ld.size();i++){
if(ld.get(i).pred.equals("NULL") && !ld.get(i).act.equals("DU")){
ln.get(ld.get(i).end-1).es=ld.get(i).period;
}
if(ln.get(ld.get(i).end-1).es==0){
ln.get(ld.get(i).end-1).es=ln.get(ld.get(i).start-1).es+ld.get(i).period;
}
if(ln.get(ld.get(i).end-1).es>0 && ln.get(ld.get(i).end-1).es<ln.get(ld.get(i).start-1).es+ld.get(i).period){
ln.get(ld.get(i).end-1).es=ln.get(ld.get(i).start-1).es+ld.get(i).period;
}
}
ln.get(sog-1).lc=ln.get(sog-1).es;
for(int i=ld.size()-1;i>=0;i--){
if(ln.get(ld.get(i).start-1).lc==0){
ln.get(ld.get(i).start-1).lc=ln.get(ld.get(i).end-1).lc-ld.get(i).period;
}
if(ln.get(ld.get(i).start-1).lc>ln.get(ld.get(i).end-1).lc-ld.get(i).period){
ln.get(ld.get(i).start-1).lc=ln.get(ld.get(i).end-1).lc-ld.get(i).period;
}
}
ln.get(0).lc=0;
for(int i=0;i<ln.size();i++){
if(ln.get(i).es==ln.get(i).lc){
lres.add(i+1);
}
}
System.out.print("Critical Path: ");
for(int i=0;i<ld.size();i++){
for(int j=0;j<lres.size()-1;j++){
//System.out.println(lres.get(j)+" "+ld.get(i).start+" "+lres.get(j+1)+" "+ld.get(i).end);
if(lres.get(j)==ld.get(i).start && lres.get(j+1)==ld.get(i).end){
System.out.print(ld.get(i).act+" ");
lc.add(ld.get(i).act);
v=v+ld.get(i).sd*ld.get(i).sd;
}
}
}
System.out.println();
System.out.println("Variance:"+v);
v=(float)Math.sqrt(v);
for(int i=0;i<ld.size();i++){
if(ld.get(i).start>=1){
tf.add((int) (ln.get(ld.get(i).end-1).lc-ln.get(ld.get(i).start-1).es-ld.get(i).period));
ff.add((int) (ln.get(ld.get(i).end-1).es-ln.get(ld.get(i).start-1).es-ld.get(i).period));
}
}
for(int i=0;i<ld.size();i++){
if(tf.get(i)==0 && ff.get(i)==0){
lres.add(i+1);
}
}
System.out.println("Enter Desired Time:");
dt=sc.nextFloat();
float ct=ln.get(ln.size()-1).es;
NormalDistribution nd=new NormalDistribution();
float z1=(dt-ct)/v;
System.out.println("Z:"+z1);
float z=go.erf((float) (z1/1.414));
z=(z+1)/2;
System.out.println("Probability:"+z);
}
}
  1 Comment
Walter Roberson
Walter Roberson on 4 Sep 2017
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hp
hp on 2 Apr 2021
i have stemmercode in Java kindly convert it to the matlab code

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