I am trying to write a program to select a random name from the US Census last name list. The list format is
Name Weight Cumulative line
----- ----- ----- -
SMITH 1.006 1.006 1
JOHNSON 0.810 1.816 2
WILLIAMS 0.699 2.515 3
JONES 0.621 3.136 4
BROWN 0.621 3.757 5
DAVIS 0.480 4.237 6
Assuming I load the data in to a structure like
Class Name
{
public string Name {get; set;}
public decimal Weight {get; set;}
public decimal Cumulative {get; set;}
}
What data structure would be best to hold the list of names, and what would be the best way to select a random name from the list but have the distribution of names be the same as the real world.
I will only be working with the first 10,000 rows if it makes a d开发者_如何学Goifference in the data structure.
I have tried looking at some of the other questions about weighted randomness but I am having a bit of trouble turning theory in to code. I do not know much about math theory so I do not know if this is a "With or without replacement" random selection, I want the same name able to show up more than once, which ever that one means.
The "easiest" way to handle this would be to keep this in a list.
You could then just use:
Name GetRandomName(Random random, List<Name> names)
{
double value = random.NextDouble() * names[names.Count-1].Culmitive;
return names.Last(name => name.Culmitive <= value);
}
If speed is a concern, you could store a separate array of just the Culmitive
values. With this, you could use Array.BinarySearch
to quickly find the appropriate index:
Name GetRandomName(Random random, List<Name> names, double[] culmitiveValues)
{
double value = random.NextDouble() * names[names.Count-1].Culmitive;
int index = Array.BinarySearch(culmitiveValues, value);
if (index >= 0)
index = ~index;
return names[index];
}
Another option, which is probably the most efficient, would be to use something like one of the C5 Generic Collection Library's tree classes. You could then use RangeFrom
to find the appropriate name. This has the advantage of not requiring a separate collection
I've created a C# library for randomly selected weighted items.
- It implements both the tree-selection and walker alias method algorithms, to give the best performance for all use-cases.
- It is unit-tested and optimized.
- It has LINQ support.
- It's free and open-source, licensed under the MIT license.
Some example code:
IWeightedRandomizer<string> randomizer = new DynamicWeightedRandomizer<string>();
randomizer["Joe"] = 1;
randomizer["Ryan"] = 2;
randomizer["Jason"] = 2;
string name1 = randomizer.RandomWithReplacement();
//name1 has a 20% chance of being "Joe", 40% of "Ryan", 40% of "Jason"
string name2 = randomizer.RandomWithRemoval();
//Same as above, except whichever one was chosen has been removed from the list.
I'd say an array (vectors if you prefer) would be best to hold them. As for the weighted average, find the sum, pick a random number between zero and the sum, and pick the last name whose cumulative value is less. (e.g. here, <1.006 = smith, 1.006-1.816 = johnson, etc.
P.S. it's Cumulative.
Just for fun, and in no way optimal
List<Name> Names = //Load your structure into this
List<String> NameBank = new List<String>();
foreach(Name name in Names)
for(int i = 0; i <= (int)(name.Weight*1000); i++)
NameBank.Add(name.Name)
then:
String output = NameBank[rand(NameBank.Count)];
精彩评论