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C# Structured List

I am having problems with this bit of code

I have this structure

``````public struct bounds
{
public int xmax = 0;
public int xmin = 0;
public int ymax = 0;
public int ymin = 0;
};
``````

and I make a list out of it

``````List<bounds> map = new List<bounds>();
``````

I am trying to store the boundaries of a space (or object) in a 2D array (its xmax, xmin, ymin, & ymax) I have this integer y variable which is going to be some number when it gets to this code, but I keep getting red lines under the code associated with my list "map" (i and j are counters for going through the 2D array)

``````if(!(map.Contains(y)))  //if the list doesn't already have this number
{
map[y].xmax = i;    //and set its xmax, xmin, ymax, ymin
map[y].xmin = i;
map[y].ymax = j;
map[y].ymin = j;
}

if(map[y].xmax < j)     // if its already in the list look at the current
map[y].xmax = j;    //  boundaries and decide if new ones should be set

if(map[y].xmin > j)
map[y].xmin = j;

if (map[y].ymax < j)
map[y].ymax = i;

if(map[y].ymin > j)
map[y].ymin = i;
``````
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– Jeppe Stig Nielsen Jul 6 '13 at 18:51
Why not use a `System.Drawing.Rectangle`? – ja72 Jul 8 '13 at 16:15

The reason for this is a struct is a value type.

When you're reading out the struct from the list, you're getting a copy.

As such, this line of code (and all that looks like it):

``````map[y].xmax = i;
``````

is modifying the copy you got out from the list.

You can counter this by manually retrieving the copy, modifying it, and placing it back into the list.

Note: Mutable structs generates all sorts of problems. The problem you're having is just one of them, but you should not make them mutable.

Also note: You're using the struct value itself as an indexer into the list, I assume this is an error, and that you're actually using an index variable, otherwise you're really having problems.

Here's a general tip though. If Visual Studio is drawing red squigglies under your code, you can hover the mouse over it to get a tooltip telling you what is wrong. It may cryptic to you, but the error message can be googled much easier:

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Sure, it won't compile to say `MethodWhoseReturnTypeIsAMutableStruct().ChangeableMemberOfStruct = assignThis;`, if I remember correctly. Edit: Not sure if it matters if the struct member is a field or a property here(?). – Jeppe Stig Nielsen Jul 6 '13 at 19:01

To use the `List` indexer, you need to pass an int. You're passing a `bounds` struct here

``````map[y].xmax = i;
``````

`y` has to be an int representing the index you want to access. I'm guessing `y` is a bounds struct because you've used

``````map.Add(y);
``````

and your `map` is of type `List<bounds>`.

-
y is an interger – DSP_Student Jul 6 '13 at 18:48
Then `map.Add(y)` shouldn't work. Your `map` list expects a `bounds` struct to be added, not an integer. – keyboardP Jul 6 '13 at 18:48
`y` cannot both be an integer and an element of the `map` list, unless the code you've posted is not the real code at all. – Lasse V. Karlsen Jul 6 '13 at 18:49
O i see what your saying, let me change y to make it a bounds y not int y – DSP_Student Jul 6 '13 at 18:51
If you literally mean just change the word from `int` to `bounds`, that won't work. You have to create a new `bounds` struct and fill its fields. – keyboardP Jul 6 '13 at 18:52

If the purpose of a data type is to encapsulate a fixed set of related but independent values (such as the coordinates of a point), an exposed-field structure meets that description better than any other data type. Such structures should not have many instance methods other than overrides of `ToString()`, `Equals()`, and `GetHashCode()`; it's generally better for structures to use static utility methods than instance methods. For example, this would be problematical:

``````public void UpdateRange(Point pt)
{
if (pt.X > xmax) xmax = pt.X;
if (pt.Y > ymax) ymax = pt.Y;
if (pt.X < xmin) xmin = pt.X;
if (pt.Y < ymin) ymin = pt.Y;
}
``````

but this would not:

``````public void UpdateRange(ref bounds it, Point pt)
{
if (pt.X > it.xmax) it.xmax = pt.X;
if (pt.Y > it.ymax) it.ymax = pt.Y;
if (pt.X < it.xmin) it.xmin = pt.X;
if (pt.Y < it.ymin) it.ymin = pt.Y;
}
``````

Note that when classes expose properties of a structure type, it is not possible to modify such properties directly. One cannot use something like:

``````bounds.UpdateRange(ref myList[4], newPoint);
``````

nor, if UpdateRange were an instance method, could one use:

``````myList[4].UpdateRange(newPoint);
``````

In the latter situation, the code would compile, but wouldn't work. Instead, one has to use something like:

``````var temp = myList[4];
bounds.UpdateRange(ref temp, newPoint);
mylist[4] = temp;
``````

Note that the instance method and the static method with a `ref` parameter are semantically identical in the cases where both will compile. The difference between them is that the static method with a `ref` parameter will only compile in cases where the `ref` parameter is a modifiable variable, but calling the instance method on a property will cause the compiler to copy that property to a temporary variable, call the instance method on that, and discard the result.

I would suggest that your type is almost a perfect example of something that should be a structure. If it were a mutable class type, it would be unclear when code which passed a reference to an instance was really passing the instantaneous values the instance happened to hold at the time of a call, or was passing a reference to a "live" entity. Using an immutable class type or a so-called immutable struct type [note that there isn't really any such thing as an immutable value type] would make methods like `UpdateRange` slower to write and to run, while offering no particular benefit.

The one essential thing to note about the structure type is that each field (e.g. `xmin`) has no meaning other than "the last value that something stored in "xmin", or zero if nothing has been stored there yet. If code writes 256 to `xmin` and -234 to `xmax`, then `xmin` will hold 256 and `xmax -234. Any code which takes a`bounds` and does anything with it should be prepared for such values just as it would be if it took those fields as four separate parameters.

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