# Optimization of an Algo

I have code that reads a text file and creates an input array[] of `boolean` type. Its size is about 100,000-300,000 items. Now the problem I'm facing is to create all those subsets of size N, 3>=N>=9, that have contiguous true values.

E.g. for N=3, [true][true][true] is the required subset if all the 3 trues are in the continuous indexes.

Although I have an algorithm created, it's very slow. I need a better solution, which is fast and efficient.

`````` public static void createConsecutivePassingDays()
{
for (String siteName  : sitesToBeTestedList.keySet())
{
System.out.println("\n*****************Processing for Site--->"+siteName+" ***********************");

for (String cellName : sitesToBeTestedList.get(siteName))
{

System.out.println("\n*****************Processing for Cell--->"+cellName+" ***********************");

boolean failed=false;

ArrayList<String> passedDatesTriplets=new ArrayList<String>();
int consecutiveDays=0;
String tripletDate="";
String prevDate_day="";
String today_Date="";

for (String date : cellDateKpiMetOrNotMap.get(cellName).keySet())
{
System.out.println("\nprocessing for Date-->"+date);
if(!(prevDate_day.trim().equals("")))
today_Date=getNextDay(prevDate_day.substring(0, prevDate_day.lastIndexOf('_')));

if(Connection.props.getProperty("INCLUDE_WEEKENDS").equalsIgnoreCase("FALSE"))
{
if(date.endsWith("SAT") || date.endsWith("SUN") || (!(date.substring(0, date.lastIndexOf('_')).equalsIgnoreCase(today_Date))))
{
{
}

tripletDate="";
consecutiveDays=0;
prevDate_day=date;
continue;
}
}

if(cellDateKpiMetOrNotMap.get(cellName).get(date).equalsIgnoreCase("TRUE"))
{

if(tripletDate.equals(""))
tripletDate=date;
else
tripletDate+="#"+date;

consecutiveDays++;

}
else
{
failed=true;
{
}
tripletDate="";
consecutiveDays=0;
}

prevDate_day=date;
}

if(!failed)
else
{
{
}
}

cellsWithPassedTripletsDates.put(cellName, passedDatesTriplets);

}

siteItsCellsWithPassedDates.put(siteName, cellsWithPassedTripletsDates);

}

System.out.println("\n************************************************SITES***************************************");
for (String site : siteItsCellsWithPassedDates.keySet())
{
System.out.println("\n********************Site="+site+" ***********************");
for (String cellName : siteItsCellsWithPassedDates.get(site).keySet())
{
System.out.println("\nCellName="+cellName);
System.out.println(siteItsCellsWithPassedDates.get(site).get(cellName));
}
System.out.println("***********************************************************");
}
System.out.println("********************************************************************************************");
}
``````
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What's your current algorithm? Code please –  RNJ Oct 10 '12 at 10:20
hey, the code is up..,, But the question I have asked is actually very basic idea that is working behind the code, but the code is too complex to be shown, as many other functionality is embedded into it. –  KDjava Oct 10 '12 at 10:32
How does the Algorithm and its datastructures map to the code? You talked about an array of booleans, but see tons of Strings and Lists in the code ... –  Jens Schauder Oct 10 '12 at 10:35
Do the subsets overlap, ie if you have t t t t, is that two subsets of 3 trues, or one subset of 3 trues and one extra true which is not part of any subset? –  hyde Oct 10 '12 at 10:39
@JensSchauder, don't try n map the code to problem, the problem I have told you is self-sufficient, It was just given as MyNameIsTooCommon, was asking for it.. Also man ArrayLists too are same as arrays only(self-growing array).. pls suggest me a solution I don't need any code for it, pls –  KDjava Oct 10 '12 at 10:42

First I would stay away from the `array[boolean]` a `BitSet` is more memory efficient in I'd expect it to be faster as well in your case. Since it will utilize the caches better. See Boolean[] vs. BitSet: Which is more efficient?

For the algorithm:

Iterate through the datastructure. When you come across the first `true`, remember its position (`start`) until you reach a `false`. This is the position `end` At that point you have the start and end of a contiuous interval of `true` values, which is basically your result. You get your subsets as starting from `start` to `end - n`.

Repeat until the end of you datastructure

You can even parallize this by starting n-processes, each handling a different part of the array, starting with the first `false` value after the start of the segement and continuing over the end of the segement until the first `false`.

-

The simplest algo would be to check the N values starting at index x. if there is at least one false, then you can go directly to the index x+N. otherwise you can check index x+1; if there is no valid sequence, then you will check size/N cells.

in pseudo-code :

``````int max = array.length - N;
int index = 0;
boolean valid = true;
while (index < max) {
valid = true;
for (check = index; check<index+N; check++){
valid = valid && array[check];
}
if (valid) {
// you got a continous sequence of true of size N
;
index++;
} else {
index = index + N;
}
}
``````

also, with a BitSet instead of an array you could use the nextClearByte to get the index of the next false. the difference with the previous false minus N indicate the nomber of sequences of N true (with the previous false initially valued at -1).

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