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I have three values (foo,bar,bad) and based on which one I pass into a function I want to use the other two.

For example calling self.method(foo) would result in something like this with foo being undefined.

def method
  self.foo = 180 - self.bar - self.bad
end

I can do it with a simple if-elsif-else setup, but is there a better (more idiomatic) way?

Update for clarity:

Here's what one suggestion might look like in production:

def solve_angles(missing)
  angles = 180 - [ A, B, C ].reject { |e| e == missing }.inject(:+)
end

called via @triangle.solve_angles(self.C) or even '@triangle.solve_angles("C") would be possible.

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It totally depends; is the decision value-based, or literally dependent on the symbol? –  Dave Newton Dec 22 '11 at 16:44
    
It always helps to show what you have written to this point, rather than have the rest of us try to visualize your code and improve it. –  the Tin Man Dec 22 '11 at 16:46
    
I've updated the code to hopefully make more sense of it. It is essentially trying to solve for three angles, when two are known and the third one is missing, but all three must add up to 180. –  Noah Clark Dec 22 '11 at 16:48
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4 Answers

up vote 0 down vote accepted

You don't need to specify which angle you're solving for; it's implicit in the problem's definition. If you start with something like this (anything resembling error handling elided):

class Triangle
  def initialize h
    h.keys.each { |key| instance_variable_set "@#{key}".to_sym, h[key] }
  end

  def to_s
    "a=#{@a}, b=#{@b}, c=#{@c}"
  end

  def solve
    angle = instance_variables.inject(180) { |v, a| v -= instance_variable_get(a) }
    [:@a, :@b, :@c].each {|s| instance_variable_set(s, angle) unless instance_variable_defined? s }
    self
  end
end

Then:

pry(main)> t = Triangle.new :a => 20, :c => 30
=> a=20, b=, c=30
pry(main)> t.solve
=> a=20, b=130, c=30
pry(main)> 

You could also return/indicate which angle was actually solved for, if necessary.

This doesn't actually avoid an if statement, which was your specific question. It eliminates the need to explicitly spell each one of them out, which I took as the intent of the question.

If you truly need to "solve for", you could do add:

def solve_for sym
  solve
  instance_variable_get("@#{sym}".to_sym)
end

Technically, you could solve only after determining the value isn't set, but meh.

> t = Triangle.new :a => 20, :c => 30
=> a=20, b=, c=30
> t.solve_for :b
=> 130
> t
=> a=20, b=130, c=30
> t = Triangle.new :a => 20, :c => 30
=> a=20, b=, c=30
> t.solve_for :a
=> 20
> t
=> a=20, b=130, c=30
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There are a few things in here that I don't quite understand how they work. Thanks for all this. I'll be playing around with it to make sure I understand how it works. I appreciate the time you put into this. –  Noah Clark Dec 22 '11 at 17:39
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Try somethng like this:

def method(arg)
  [ bar, bad, foo ].reject { |e| e == arg }.inject(:+)
end

Note that you don't to the self receiver, it's implicit.

share|improve this answer
    
I've added some clarification up above. I think I'm approaching this the wrong way. –  Noah Clark Dec 22 '11 at 16:58
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If it's just basic addition, multiplication, etc. then the following would suffice, but anything more complicated is not guaranteed.

def method(input)
  self.foo + self.bar + self.bad - input
end

Alternately, you could put them all in an array and delete the one you provided.

def method(input)
  [self.foo, self.bar, self.bad].reject { |e| e==input }.inject { ... }
end
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2  
Note that delete returns the deleted element (or nil), so the second snippet doesn't work. –  Paolo Capriotti Dec 22 '11 at 16:54
1  
Updated. Thanks for catching that. –  Matt Dec 22 '11 at 17:02
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Here is the solution I came up with:

def solve_angles(missing)
      holder = [:A, :B, :C]
      holder.delete(missing)
      angle = 180 - (self.send(holder[0]) + self.send(holder[1]))
end

Is this a bad solution? Why?

Alternatively, is this any cleaner/better?

def solve_angles(missing)
  holder = [:A, :B, :C] - [missing]
  angle = 180 - send(holder[0]) - send(holder[1])
end

Or:

def solve_angles(missing)
  angles = [:A, :B, :C] - [missing]
  angles.inject(180) { |memo, a| memo - send(a) }
end
share|improve this answer
    
I wouldn't call it "bad", and if you have attr_accessors on them all, seems like it'd work fine. Appending an edit to your answer. –  Dave Newton Dec 22 '11 at 18:18
    
One reason I tend towards more-generic solutions (rather than three sides explicitly) is that it lends itself to additional shapes, where it could be defined, filled, queried, etc. at runtime. For example, s = Shape.new(sides: 5) could do all the setup required to create a five-sided shape, including calculate the internal angle sum, create the angle accessors, etc. –  Dave Newton Dec 22 '11 at 18:27
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