# Stuck at removing/adding multiple taxes from a value?

I have to remove/add multiple taxes or adjustments from a value to get back to the original value that it was applied to. I will define what an adjustment can be:

An adjustment can be a percentage that is either compounded or non-compounded. It can also be a flat dollar amount. It can also be added or removed to the initial value. I just have to write the part that reverses the taxes from the post-tax value. I wrote something up I could use to generate test data and I wrote something else that would reverse those adjustments from the post-tax value generated by the test data. I think I am overengineering for applying the adjustments and unapplying them. The adjustments are applied order, so a list containing (+7% non-compounded, +3% compounded, + 5% non-compounded) would have the 7 applied first, then the 3 and then the 5 and in this case, I believe to remove it I have to go backwards, meaning remove the 5, then the 3 and then the 7. Here is my program to apply the adjustments to an initial value (it should bring back 115.21, but in this case it is bringing back 115.0)

``````void Main()
{
Adjustment a1 = new Adjustment {Amount = 7.0M, IsCompounded = false, Add = true, Percent = true};
Adjustment a2 = new Adjustment {Amount = 3.0M, IsCompounded = true, Add = true, Percent = true};
Adjustment a3 = new Adjustment {Amount = 5.0M, IsCompounded = false,  Add = true ,Percent = true};

decimal total = 100m;

decimal nonCompoundValues = 0.0m;
string prevTypeCalc = "";
decimal compoundValues = 1.0m;
decimal percents = 1.0m;

int i = 0;

{
if(a.Percent)
{
if(a.IsCompounded)
{
{
compoundValues *= a.CompoundedValue;
}
else
{
compoundValues /= a.CompoundedValue;
}

prevTypeCalc = "Compound";
}
else if(!a.IsCompounded)
{
{
nonCompoundValues += a.AmountFraction;
}
else
{
nonCompoundValues -= a.AmountFraction;
}

prevTypeCalc = "Non-Compound";
}
}
else
{

if(prevTypeCalc == "Non-Compound" || prevTypeCalc == "Compound")
{
if(nonCompoundValues <= 0)
else

compoundValues = 1.0m;
nonCompoundValues = 0.0m;
}

{
}
else
{
}

prevTypeCalc = "Flat";

}
}

if(prevTypeCalc == "Non-Compound" || prevTypeCalc == "Compound")
{

if(nonCompoundValues <= 0)
else
}

}

{
public bool Percent {get;set;}
public decimal Amount {get;set;}
public bool IsCompounded {get;set;}
public decimal AmountFraction
{
get {
return Amount/100.0M;
}
}
public decimal CompoundedValue
{
get{
return 1 + AmountFraction;
}
}
}
``````

Here is the algorithm for unapplying the adjustments from teh previous algorithm. Notice, I have reversed the order in when I add them to the list, so when I take 115.21, I get back to 100:

`````` void Main()
{
Adjustment a1 = new Adjustment {Amount = 7.0M, IsCompounded = false, Add = false, Percent = true};
Adjustment a3 = new Adjustment {Amount = 5.0M, IsCompounded = false, Add = false, Percent = true};

decimal total = 115.21m;
int i = 0;

decimal nonCompoundValues = 0.0m;
string prevTypeCalc = "";
decimal compoundValues = 1.0m;
bool nonCompoundFirst = true;
bool first = true;
{
if(a.Percent)
{
if(a.IsCompounded)
{
{
compoundValues *= a.CompoundedValue;
}
else
{
if(prevTypeCalc == "")
compoundValues = a.CompoundedValue;
else
compoundValues /= a.CompoundedValue;
}

prevTypeCalc = "Compound";
}
else if(!a.IsCompounded)
{
{
nonCompoundValues += a.AmountFraction;
}
else
{
nonCompoundValues -= a.AmountFraction;
}

prevTypeCalc = "Non-Compound";

}
}
else
{

if(prevTypeCalc == "Non-Compound" || prevTypeCalc == "Compound")
{
if(nonCompoundValues <= 0 && compoundValues != 1) //Non-Compound
else if(nonCompoundValues <= 0 && compoundValues == 1) //Compound
else
adjustedTotal /= compoundValues - Math.Abs(nonCompoundValues); //Compound + Non-Compound

compoundValues = 1.0m;
nonCompoundValues = 0.0m;
}

else

prevTypeCalc = "Flat";
}
}

if(prevTypeCalc == "Non-Compound" || prevTypeCalc == "Compound")
{
if(nonCompoundValues <= 0 && compoundValues != 1)
else if(nonCompoundValues <= 0 && compoundValues == 1) //Non-compound
else

}

}

{
public bool Percent {get;set;}
public decimal Amount {get;set;}
public bool IsCompounded {get;set;}
public decimal AmountFraction
{
get {
return Amount/100.0M;
}
}
public decimal CompoundedValue
{
get{
return 1 + AmountFraction;
}
}
}
``````

The main problem I have is that I can get it to work if all the adjustment are compound or if they are all non-compound or if they are all flat, but it gets crazy when I start mixing compound and non-compound percentages with the fact that I can add or remove them as well, for example (+5% non-compound, -2\$, -3% compound, +4% non-compound)

Non-Compounded Tax is removed or added based up the initial amount, so if your initial amount is 100 and you have a non-compounding taxes of +3% and -4%, you first add 3% of 100 to get 103 and then you subtract 4% of 100 from 103 to get 99.

If 4% was compounded, you would take the 4% off the 103, not the 100, so it would be:

103 / 1.04 = 99.03846.....

Subtracting all non-compound percentages passes.
Adding all flat amounts passes. Subtracting all flat amounts passes.

Subtracting all compound percentages fails:

Using -7%, -3%, -5%. with a calculator:

100/ 1.07 / 1.03 / 1.05 = 86.41511227483462, but I get 85.6995000

Subtracting Non-Compound/Compound fails:

Using -7% compound, -3% non-compound, -5% compound, with a calculator:

((100 / 1.07) - 3) / 1.05 = 86.1504..., but I get 85.50000.

Basically, it starts not producing the correct results when I mix compounding/non-compounding with adding and subtracting the amounts.

``````var adjustments = new Adjustment[]
{
};

{
};

{
};

{
};
``````

Lasse, I wen through the scenarios again and I made a comment about this already, but I believe I am doing my calculation wrong with the calculator. After doing the calculation a different way, my numbers matched up with yours and all scenarios passed. For example, given:

``````var adjustments = new Adjustment[]
{
};
``````

I was doing this with the calculator (100 * 1.1) / 1.05 = 104.761904, but then I tried

100 * 1.1 = 110 110 * 0.05 = 5.5 110 - 5.5 = 104.5 which is what matches up with your calculations, so I guess you handle it this way.

A thought:

If you subtract 7% from 100 and do it this way:

100 - (100 * 0.07) = 93. it seems like it is incorrect now because to add 7% back, which is 93 * 1.07, you don't get 100, you get 99.51. Subtracting 7% from 100 should actually be 100/1.07 = 93.45 and when you take 93.45 * 1.07, you get back to 100

I am stuck at something here.

The current code only appears to handle adding percentages correctly. For example, if i add a +7% to 200, I get 214 which is correct and to get back to 200, the code does 214/1.07 which is also correct. The problem is that if I want to remove 7% from 214, the code is doing .93 * 200 = 186, which is incorrect. 7% removed from 200 is actually 200/1.07 = 186.9158878504673. Taking this value and multiplying it by 7% or 186.9158878504673 * 1.07 = 200, but if I take 186 * 1.07, I get 199.02 which is not 200.

-
Could you give a textual description of what a compounded and non-compounded tax is, for all of us that aren't English? Then you would have a larger audience that might be able to help with your question. –  Lasse V. Karlsen Apr 27 '11 at 13:28
ok, I will update the post. –  Xaisoft Apr 27 '11 at 13:30
I updated the post about compound and non-compound. Let me know if it is clear. –  Xaisoft Apr 27 '11 at 13:35
Would that mean that your example of 7% non-compounded, 3% compounded, and 5% compounded is equivalent to the formula, where X is the start value: `total = x * 1.07 * 1.03 + x * 0.05` ? –  Lasse V. Karlsen Apr 27 '11 at 13:44
In this example, yes, that would be correct: (100 * 1.07) * 1.03 + (100 * 0.05) –  Xaisoft Apr 27 '11 at 13:45

Ok, here's what I did.

I started with a formula consisting of two numbers, a factor and an offset.

The formula looks like this:

``````result = input * factor + offset
``````

The formula starts out with a factor of 1, and an offset of 0, so basically the unadjusted formula looks like this:

``````result = input * 1 + 0
result = input * 1
result = input           <-- as expected
``````

• Flat value: Add the flat value to the offset
• Compounded tax: multiply both the factor and the offset by `1 + PERCENTAGE/100`
• Noncompounded tax: add to the factor the value of `PERCENTAGE/100`. (edit: was 1+, that was incorrect)

This means that your example of:

• 7% Non-compounded tax
• 3% Compounded tax
• 5% Non-compounded tax

results in this:

``````result = input * factor + offset
result = input * 1      + 0
result = input * 1.07   + 0      <-- add 0.07 to factor
result = input * 1.1021 + 0      <-- multiply both factor and offset by 1.03
result = input * 1.1521 + 0      <-- add 0.05 to factor
``````

To calculate how 100 would be, after adding the taxes, you feed it through the formula and get:

``````result = 100 * 1.1521 + 0
result = 115.21
``````

To calculate how 115.21 was, before adding the taxes, you reverse the formula by solving it for input:

`````` result                    = input * factor + offset
result - offset           = input * factor
(result - offset) / factor = input
input = (result - offset) / factor
``````

So:

``````input = (result - 0) / 1.1521
input = result / 1.1521
``````

and you get back your 100.

The code, which you can test in LINQPad is as follows:

``````void Main()
{
{
};

var original = 100M;

var result = formula.Forward(original).Dump(); // prints 115,5
var newOriginal = formula.Backward(result).Dump(); // prints 100
}

{
public class Formula
{
public decimal Factor = 1.0M;
public decimal Offset;

public decimal Forward(decimal input)
{
return input * Factor + Offset;
}

public decimal Backward(decimal input)
{
return (input - Offset) / Factor;
}
}

{
Formula formula = new Formula();
return formula;
}

}

{
private decimal _Value;

{
_Value = value;
}

{
formula.Offset += _Value;
}
}

{
{
Percentage = percentage;
}

protected decimal Percentage
{
get;
private set;
}
}

{
: base(percentage)
{
}

{
var myFactor = 1M + Percentage / 100M;
formula.Offset *= myFactor;
formula.Factor *= myFactor;
}
}

{
: base(percentage)
{
}

{
formula.Factor += (Percentage / 100M);
}
}
``````

The example I gave, would look like this, let's do it manually first.

• 1% compounded, 1% non-compounded, flat value of 1, 1% compounded, 1% non-compounded, 1% compounded
• Start at 100, add 1% compounded tax, getting 101
• Add 1% non-compounded tax, 1% of 100, getting 102
• Add a flat value of 1, getting 103
• Add a 1% compoundex tax, getting 104,03
• Add a 1% non-compounded tax, 1% of 100, getting 105,03
• Add a 1% compounded tax, getting 106,0803

The input to the code:

``````var adjustments = new Adjustment[]
{
};
``````

Output:

``````106,0803000
100
``````
-
ok, I will test it out and let you know. –  Xaisoft Apr 27 '11 at 14:14
I am testing, while I test, you made the comment in your post "edit: was 1+, that was incorrect" What did you mean by that? Was I doing something wrong and how close was my original code? –  Xaisoft Apr 27 '11 at 14:23
No, if you check the edits, the description of the adjustment said "Add `1 + PERCENTAGE/100`", that was incorrect (by me.) The code, however, was right, I just described it wrong. –  Lasse V. Karlsen Apr 27 '11 at 14:24
To be honest, I did not look at your code at all :P –  Lasse V. Karlsen Apr 27 '11 at 14:25
Ok, I have tested some scenarios and most of it passed, I will update my post based on what passed and didn't –  Xaisoft Apr 27 '11 at 14:43

This is the way I did it. It works for most situations, especially if you put the non-compounding percentages first. If anyone has any improvements or notices any bugs, please let me know:

``````void Main()
{
Adjustment a1 = new Adjustment {Amount = 12.0M, IsCompounded = false, Add = false, Percent = false};
Adjustment a2 = new Adjustment {Amount = 3.0M, IsCompounded = true, Add = true, Percent = true};
Adjustment a3 = new Adjustment {Amount = 5.0M, IsCompounded = true,  Add = true ,Percent = true};

decimal total = 103.55987055016181229773462783m;
decimal nonCompoundValues = 0.0m;
decimal compoundValues = 1.0m;
string prevType = "";

for(int i = 0; i <= adjustments.Count - 1; i++)
{

{
{

{
{

}
else
{

}
break;
}

if(nonCompoundValues < 0  & prevType != "Compound") //Remove tax
{

nonCompoundValues = 0.0m;
compoundValues = 1.0m;

}
else if(nonCompoundValues > 0 & prevType != "Compound") //Add tax
{

nonCompoundValues = 0.0m;
compoundValues = 1.0m;
}

{

if(prevType == "" || prevType == "Compound")
{
compoundValues = 1.0m;
}
else
{
}
}
else
{

if(prevType == "" || prevType == "Compound")
{

compoundValues = 1.0m;
}
else
{
}
}

prevType = "Compound";

}
else // Non-Compound
{

{

}
else
{
}

prevType = "Non-compound";

}

}
else //flat
{
if(nonCompoundValues < 0) //Remove tax
{

nonCompoundValues = 0.0m;
compoundValues = 1.0m;

}
else if(nonCompoundValues > 0) //Add tax
{

nonCompoundValues = 0.0m;
compoundValues = 1.0m;
}

{
}
else
{
}

}
}

if(nonCompoundValues < 0)
{

}
else
{
}

}

{
public bool Percent {get;set;}
public decimal Amount {get;set;}
public bool IsCompounded {get;set;}
public decimal AmountFraction
{
get {
return Amount/100.0M;
}
}
public decimal CompoundedValue
{
get{
return 1 + AmountFraction;
}
}
}
``````
-