I would imagine that it might evaluate something like this evaluating from left to right.

a+b*c/(d-e)

```
Action Left Value Right Value
Start Add a b*c/(d-e)
Start Multiply b c
Calc Multiply (since it can)
Start Divide b*c (d-e)
Start Subtract d e
Calc Subtract
Calc Divide
Calc Add
```

This can be thought of as creating a binary tree representing the calculations and then working from the leaf nodes, left to right, calculating things. Unfortunately my ascii art isn't great but here's an attempt at representing the tree in question:

```
Add
/\
/ \
a \
Divide
/ \
/ \
/ \
/ \
Multiply Subtract
/\ /\
/ \ / \
b c d e
```

And I did some tests in C# (I know its not the same but that's where my interests lie and the tests can be easily adapted) as follows:

```
f = 1;
Console.WriteLine((f=2) + (f) * (f) / ((f) - (f)-1));
Console.WriteLine(2 + 2 * 2 / (2 - 2 - 1));
f = 1;
Console.WriteLine((f) + (f=2) * (f) / ((f) - (f)-1));
Console.WriteLine(1 + 2 * 2 / (2 - 2 - 1));
f = 1;
Console.WriteLine((f) + (f) * (f = 2) / ((f) - (f)-1));
Console.WriteLine(1 + 1 * 2 / (2 - 2 - 1));
f = 1;
Console.WriteLine((f) + (f) * (f) / ((f=2) - (f)-1));
Console.WriteLine(1 + 1 * 1 / (2 - 2 - 1));
f = 1;
Console.WriteLine((f) + (f) * (f) / ((f) - (f=2)-1));
Console.WriteLine(1d + 1d * 1d / (1d - 2d - 1d));
```

The pairs of console.writeline statements are the algebraic one (using the set a number trick) and a numerical representation showing what the calculation actually does. The pairs produce the same result as each other.

As can be seen the arguments are evaluated in order with any after the assignment being 2 and those before being one. So the order of evaluation of things is simple left to right I think but the order of calculations is as you would expect it to be.

I assume this can be run almost with copy and paste to test in JAVA...

There may be some unnoticed assumptions in here so if anybody does spot logic flaws in here please do call me on them and I'll work them through.