# Operating on abstract filters (list comprehension): Combining two filters

Short and sharp:
Given two Boolean statements, what is the easiest way to calculate the equation of their intersection in a language like Lua?

(Red = Filter 1, Blue = Filter 2, Purple = Area of intersection)

Long and lamenting:

• Filter A: `object.ID < 300`

• Filter B: `object.ID < 600`

Filter A is a subset of Filter B, that is: Filter B will contain everything matched by Filter A, plus 0 or more objects. On a Venn diagram, Filter A would be inside Filter B.

How can I calculate the equation of the area of intersection?

A more complicated example:

• Filter X: `object.Col == 'GREEN' and (object.ID == 2 or object.ID == 64 or object.ID > 9001)`
• Filter Y: `(object.Col == 'RED' or object.Col == 'GREEN') and (object.ID == 3 or object.ID > 22)`

Filter A intersects with Filter B. On a Venn Diagram, they would overlap. The equation for the overlapping area would be:
`object.Col == 'GREEN' and (object.ID == 64 or object.ID > 9001)`

How would this equation be calculated in a language such as Python or Haskell?

I wish to eventually make this in Lua, but if Python, Haskell or another language provided the functionality, I would be able to look at the source code and convert it over.

Here is how I am representing filters in Lua:

``````filter = DataFilter(
{"and",
{"or",
{"==", "Col", "RED"},
{"==", "Col", "GREEN"},
},
{"or",
{"==", "ID", 3},
{">" , "ID", 22},
},
}
)
``````

Please point me in the right direction.

-

Wild guess: Bring the "Filters" into disjunctive normal form and reduce using appropriate methods (x == 8 contained in x > 5).

-
Thank you for this hint. I'm researching into it now. –  Deco Dec 18 '11 at 11:50
I'm glad I could be help :) –  sleeplessnerd Dec 21 '11 at 2:08

This is somehow you can achieve this. The self commented code would help you understand the approach

``````#Create a Class Foo with attributes id and col
class Foo:
def __init__(this,ID,COL):
this.id=ID
this.col=COL

#Dataset
data=["VIOLET","INDIGO","BLUE","GREEN","YELLOW","ORANGE","RED"]
ObjList=[Foo(random.randint(1,70),random.choice(data)) for i in xrange(1,10000)]

#Create the Filter Functions
def FilterX(obj):
return obj.col == 'GREEN'  and (obj.id == 2 or obj.id == 64 or obj.id > 9001)

def FilterY(obj):
return (obj.col == 'RED' or obj.col == 'GREEN') and (obj.id == 3  or obj.id > 22)

def FilterZ(obj):
return obj.col == 'GREEN'  and (obj.id > 50)

#Create a list of filter functions
filters=[FilterX,FilterY,FilterZ]

#Create a set result (that will hold the intersected data) and assign the result of
#applying the First Filter on ObjList
result=set(filter(filters[0],ObjList))

#For the Rest of the filter's apply them on the ObjList, and then intersect
#the resultant set with the result
for s in (set(filter(foo,ObjList)) for foo in filters[1:]):
result=result.intersection(s)

#Finally Display the result
[(obj.id,obj.col) for obj in result]
``````
-
Thank you for the example code. Although this is needed eventually, it is not what I am asking for in the question; I need the equation of the resulting set, not the set itself. Definitely worth a vote up, though :) –  Deco Dec 18 '11 at 11:49

I don't know if I'm missing an important point here. It seems that your filters just return a boolean depending on the qualities of "object". Why don't you just use regular "and" and "or"s and functions to compose them?

This is how I'd make your filters in Lua:

``````function filterX(object)
return object.Col == 'GREEN' and
(object.ID == 2 or object.ID == 64 or object.ID > 9001)
end

function filterY(object)
return (object.Col == 'RED' or object.Col == 'GREEN') and
(object.ID == 3 or object.ID > 22)
end
``````

You can define the "union" or "intersection" of those filters with these extra functions:

``````function union(f,g)
return function(...)
return f(...) or g(...)
end
end

function intersection(f,g)
return function(...)
return f(...) and g(...)
end
end
``````

And here's how you compose:

``````union(filterX, filterY)(object) -- returns true or false
intersection(filterX, filterY)(object) -- true or false
``````

Or, if you want to reuse them often:

``````filterXorY = union(filterX, filterY)
filterXandY = intersection(filterX, filterY)

filterXorY(object) -- true or false
filterXandY(object) -- true or false
``````

I hope this helps.

-
I need the resulting expression of `filterXandY`, which cannot be obtained from Lua without a binary module (or string.dump) and some nasty hacks. Also, it would not be simplified. Also, there would be no way to determine whether Filter X and Filter Y intersect or are mutually exclusive, unless some brute-force looping through all the possible objects was performed. –  Deco Dec 18 '11 at 15:49
I see. Have you considered using math-oriented languages, like Mathematica, R or similar, instead of a generic programming language? They should have most of what you need built-in. –  kikito Dec 18 '11 at 15:59