# How do I programmatically remove/add compound/noncompound percentages and flat amounts from a value?

I am given 100 dollars and told that I have to do the following operations on it in order:

Multiply by a compounded interest of 3%

So essentially, it becomes (100 + 97 + 5) * 1.3 = 208.06

Now here lies my problem, I know to get back to 100 from 208.06, I must do:

208.06 / 1.3 - (97 + 5) = 100

The above is a simple example, but as soon as I start mixing compound,non-compound, flat amounts, and the ability to not only add, but subtract the values, it gets really complicated. For example, if I am given 100 dollars again and told that I have to apply the following adjustments in order, I am not sure how to reverse it:

3) Subtract 90
4) Subtract 3

The calculation for the above is:

((100 * (1.03) * (1.04)) - 90 - 3) * (1 + 0.04 + 0.03)

For the above, I have no idea how to approach reversing it with just knowing the post adjusted value and the 6 adjustments that were added.

The above formula can be simplified to, which makes it easier to see how to reverse it:

`(100 * 1.03 * (1.04)) - 93 + 7 = 21.21 and to reverse it, we just do:`

`(100 * 1.03 * (1.04)) - 93 + 7 = 100`

My problem is how to loop through it and apply the operations in the correct order. Do I have to store the order of operations and their amounts in a class and then foreach through each calculation?

I have posted this on Math.StackExchange.com already, but they look at it as one big formula and don't understand that from a programming perspective, I need to loop through each adjustment and take it off the grand total. This is essentially what I am stuck at, but I am unclear how to approach solving it by looping through each adjustment since it is important that I apply the adjustments in the correct order. I am not really looking for a solution, but more of a point in the right direction.

Here is an implementation. Applying it seems to work with the initial sample, but if I do my other one, it does not seem to work unless I am doing something wrong:

``````void Main()
{
var ops = new List<Operation>
{

new CompoundInterest(3.0m),
new CompoundInterest(4.0m),
new Subtract(90.0m),
new Subtract(3.0m),
new NoncompoundInterest(3.0m),
new NoncompoundInterest(4.0m)
};

var applied = ops.Aggregate(100m, (acc, o) => o.Apply(acc));

var unapplied = ops.Reverse().Aggregate(applied, (acc, o) => o.Unapply(acc));

}

// Define other methods and classes here
abstract class Operation
{
public abstract decimal Apply(decimal value);
public abstract decimal Unapply(decimal value);
}
class CompoundInterest : Operation
{
public decimal percent {get;set;}
public CompoundInterest(decimal percent)
{
this.percent = percent;
}

public override decimal Apply(decimal value)
{
return value * (1m + percent/100m);
}

public override decimal Unapply(decimal value)
{

return value / (1m + percent/100m);
}
}
class NoncompoundInterest : Operation {
public decimal percent {get;set;}
public NoncompoundInterest(decimal percent)
{
this.percent = percent;
}

public override decimal Apply(decimal value)
{
return value * (percent/100m);
}

public override decimal Unapply(decimal value)
{
return value / (percent/100m);
}
}

public decimal amount {get;set;}
{
this.amount = amount;
}

public override decimal Apply(decimal value)
{
return value + amount;
}

public override decimal Unapply(decimal value)
{
return value - amount;
}

}

class Subtract : Operation {
public decimal amount {get;set;}
public Subtract(decimal amount)
{
this.amount = amount;
}

public override decimal Apply(decimal value)
{
return value - amount;
}

public override decimal Unapply(decimal value)
{
return value + amount;
}
}
``````
-
I think this is more suited to math.stackexchange.com – Dave Anderson Apr 21 '11 at 0:19
@Dave, I tried there already. The problem is that they look at one big formula, but do not provide any algorithm. I understand how to apply the formula, but when it comes to coding it, I am having issues on how to approach it. – Xaisoft Apr 21 '11 at 0:26
PS. From part 1 of your explaination 3% would mean multiply by 1.03... – Reddog Apr 21 '11 at 0:33
@Mark, this could have been a non-compounded 3%, but essentially, when broken out it is the same as 100 * 0.03 = 3 and then 100 + 3 = 103. 100 + (100 * 0.03) = 100 * (1 + 0.03) = 100 * (1.03) – Xaisoft Apr 21 '11 at 0:35
@Reddog, you are correct, I will edit my post. – Xaisoft Apr 21 '11 at 0:35

One way to think of this would be as a list of operations, with each operation also providing details how to undo itself. Roughly...

``````abstract class Operation
{
public abstract decimal Apply(decimal value);
public abstract decimal Unapply(decimal value);
}

class CompoundInterest : Operation
{
public CompoundInterest(decimal percent)
{
this.percent = percent;
}

public override decimal Apply(decimal value)
{
return value * (1m + percent/100m);
}

public override decimal Unapply(decimal value)
{
return value / (1m + percent/100m);
}
}

class NoncompoundInterest : Operation { ... }

class Add : Operation { ... }

class Subtract : Operation { ... }
``````

Now you can represent your chain of operations in a list:

``````var ops = new List<Operation>
{
new CompoundInterest(3.0m),
};

var applied = ops.Aggregate(100m, (acc, o) => o.Apply(acc));
var unapplied = ops.Reverse().Aggregate(208.06m, (acc, o) => o.Unapply(acc));
``````

Update: `Aggregate()` works something like like this:

``````decimal acc = 100m;
foreach(Operation o in ops)
acc = o.Apply(acc);
decimal applied = acc;
``````

`(acc, o) => o.Apply(acc)` is a lambda expression representing a function that returns `o.Apply(acc)` given the current "accumulator" (`acc`) and the current item in the sequence (`o`). The "seed" value (100m) is used as the first `acc`, then the function's return value is then passed in as `acc` for the next `o`, and so on.

-
Wow thanks for this. Is this using LINQ, if it is, I don't have access to it because I am using .NET 2.0 :). I will try to implement this and let you know how it goes. – Xaisoft Apr 21 '11 at 1:17
Google LINQBridge for a 2.0 implementation if you have VS 2008 or 2010. If you don't, you really should upgrade. – dahlbyk Apr 21 '11 at 1:29
I am running into a slight problem with your code, I think I have it right, but I will update my post. – Xaisoft Apr 21 '11 at 1:32
Oh, just noticed unapplied needs to work through the list backward... – dahlbyk Apr 21 '11 at 1:33
I updated my post, I think going forward with my other example does not work either unless I am missing something. – Xaisoft Apr 21 '11 at 1:42