// given a list of people, return a list containing all states with accurate statistics based on list of people TODO terrible description
public static List <PeoplePerState> GetStateStatsFromPeople(List <Person> people)
{
List <PeoplePerState> stateList = new List <PeoplePerState>(53);
for (int i = 1; i < 53; i++) // initialize stateList with proper states
{
PeoplePerState temp = new PeoplePerState();
temp.State = (States)i;
// initialize list to size of total population
stateList.Add(temp);
}
for (int j = 0; j < people.Count(); j++)
{
// add people into lists in their respective states
}
return(stateList);
}
private List <PeoplePerState> CalculateGeneratedPopulationStats(List <Person> people) // given a table of people, calculate the economic and demographic statistics of the population in the table
{
List <PeoplePerState> stateList = new List <PeoplePerState>(53);
int totalPop = people.Count();
for (int i = 1; i < 53; i++) // iterate through the list and initialize members with state names
{
PeoplePerState initState = new PeoplePerState();
initState.State = (States)i;
stateList.Add(initState);
}
for (int j = 0; j < people.Count(); j++)
{
stateList[(int)(people[j].State) - 1].Population = stateList[(int)(people[j].State) - 1].Population + 1;
if (people[j].Gender == GenderTypes.Female)
{
stateList[(int)(people[j].State) - 1].TotalSexFemale = stateList[(int)(people[j].State) - 1].TotalSexFemale + 1;
}
else
{
stateList[(int)(people[j].State) - 1].TotalSexMale = stateList[(int)(people[j].State) - 1].TotalSexMale + 1;
}
if (people[j].Age < 5)
{
stateList[(int)(people[j].State) - 1].TotalAgeUnder5 = stateList[(int)(people[j].State) - 1].TotalAgeUnder5 + 1;
}
else if (people[j].Age >= 5 && people[j].Age <= 9)
{
stateList[(int)(people[j].State) - 1].TotalAge5To9 = stateList[(int)(people[j].State) - 1].TotalAge5To9 + 1;
}
else if (people[j].Age >= 10 && people[j].Age <= 14)
{
stateList[(int)(people[j].State) - 1].TotalAge10To14 = stateList[(int)(people[j].State) - 1].TotalAge10To14 + 1;
}
else if (people[j].Age >= 15 && people[j].Age <= 19)
{
stateList[(int)(people[j].State) - 1].TotalAge15To19 = stateList[(int)(people[j].State) - 1].TotalAge15To19 + 1;
}
else if (people[j].Age >= 20 && people[j].Age <= 24)
{
stateList[(int)(people[j].State) - 1].TotalAge20To24 = stateList[(int)(people[j].State) - 1].TotalAge20To24 + 1;
}
else if (people[j].Age >= 25 && people[j].Age <= 34)
{
stateList[(int)(people[j].State) - 1].TotalAge25To34 = stateList[(int)(people[j].State) - 1].TotalAge25To34 + 1;
}
else if (people[j].Age >= 35 && people[j].Age <= 44)
{
stateList[(int)(people[j].State) - 1].TotalAge35To44 = stateList[(int)(people[j].State) - 1].TotalAge35To44 + 1;
}
else if (people[j].Age >= 45 && people[j].Age <= 54)
{
stateList[(int)(people[j].State) - 1].TotalAge45To54 = stateList[(int)(people[j].State) - 1].TotalAge45To54 + 1;
}
else if (people[j].Age >= 55 && people[j].Age <= 59)
{
stateList[(int)(people[j].State) - 1].TotalAge55To59 = stateList[(int)(people[j].State) - 1].TotalAge55To59 + 1;
}
else if (people[j].Age >= 60 && people[j].Age <= 64)
{
stateList[(int)(people[j].State) - 1].TotalAge60To64 = stateList[(int)(people[j].State) - 1].TotalAge60To64 + 1;
}
else if (people[j].Age >= 65 && people[j].Age <= 74)
{
stateList[(int)(people[j].State) - 1].TotalAge65To74 = stateList[(int)(people[j].State) - 1].TotalAge65To74 + 1;
}
else if (people[j].Age >= 75 && people[j].Age <= 84)
{
stateList[(int)(people[j].State) - 1].TotalAge75To84 = stateList[(int)(people[j].State) - 1].TotalAge75To84 + 1;
}
else if (people[j].Age >= 85)
{
stateList[(int)(people[j].State) - 1].TotalAge85OrOver = stateList[(int)(people[j].State) - 1].TotalAge85OrOver + 1;
}
if (people[j].Income < 10000)
{
stateList[(int)(people[j].State) - 1].TotalIncomeLessThan10k++;
}
else if (people[j].Income < 15000)
{
stateList[(int)(people[j].State) - 1].TotalIncome10kTo15k++;
}
else if (people[j].Income < 25000)
{
stateList[(int)(people[j].State) - 1].TotalIncome15kTo25k++;
}
else if (people[j].Income < 35000)
{
stateList[(int)(people[j].State) - 1].TotalIncome25kTo35k++;
}
else if (people[j].Income < 50000)
{
stateList[(int)(people[j].State) - 1].TotalIncome35kTo50k++;
}
else if (people[j].Income < 75000)
{
stateList[(int)(people[j].State) - 1].TotalIncome50kTo75k++;
}
else if (people[j].Income < 100000)
{
stateList[(int)(people[j].State) - 1].TotalIncome75kTo100k++;
}
else if (people[j].Income < 150000)
{
stateList[(int)(people[j].State) - 1].TotalIncome100kTo150k++;
}
else if (people[j].Income < 200000)
{
stateList[(int)(people[j].State) - 1].TotalIncome150kTo200k++;
}
else
{
stateList[(int)(people[j].State) - 1].TotalIncomeOver200k++;
}
switch (people[j].Race)
{
case RaceTypes.White:
stateList[(int)(people[j].State) - 1].TotalRaceWhite++;
break;
case RaceTypes.Black:
stateList[(int)(people[j].State) - 1].TotalRaceBlack++;
break;
case RaceTypes.AmericanIndianOrAlaskan:
stateList[(int)(people[j].State) - 1].TotalRaceAmericanIndianOrAlaskan++;
break;
case RaceTypes.Asian:
stateList[(int)(people[j].State) - 1].TotalRaceAsian++;
break;
case RaceTypes.NativeHawaiianOrPacificIslander:
stateList[(int)(people[j].State) - 1].TotalRaceNativeHawaiianOrPacificIslander++;
break;
case RaceTypes.Other:
stateList[(int)(people[j].State) - 1].TotalRaceOther++;
break;
case RaceTypes.WhiteAndBlack:
stateList[(int)(people[j].State) - 1].TotalRaceWhiteAndBlack++;
break;
case RaceTypes.WhiteAndAmericanIndianOrAlaskan:
stateList[(int)(people[j].State) - 1].TotalRaceWhiteAndAmericanIndianOrAlaskan++;
break;
case RaceTypes.WhiteAndAsian:
stateList[(int)(people[j].State) - 1].TotalRaceWhiteAndAsian++;
break;
case RaceTypes.BlackAndAmericanIndianOrAlaskan:
stateList[(int)(people[j].State) - 1].TotalRaceBlackAndAmericanIndianOrAlaskan++;
break;
}
}
return(stateList);
}