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I have a class Reader which provides access to a binary file to perform read operations on it.

This file contains several lists of offsets within the same file, where data is to be found. This means that, to get to certain data segments, one has to read an offset from some position, then jump to that offset, read an offset again, jump there, etc. until finally you reach the actual data.

The class maintains a reading position that is adjusted each time you call a method like

// reads 4 bytes and advances the position by 4 bytes
uint32 Reader::readOffset() { /* */ } 


// moves the position to offset
void Reader::jumpTo(uint32 offset) { /* */ }

Those methods obviously cannot be const as they are moving the reading position.

For convenient navigation between several levels of the file, the class provides a stack, where one can push and pop offsets as needed:

uint32 someOffset = reader.readOffset();
reader.pushOffset(); // remember position
reader.jumpTo(someOffset); // do something on another position
reader.popOffset(); // go back to where we were before

Those push/pop methods cannot be const as well, because they alter the offset stack.

The problem now is with convenience methods, that are supposed to extract data from an internally known position within the file. They have to work regardless of the current reading position and should not touch it. By design, they ought to be const, but this does not work:

uint32 Reader::readSomeDataFromKnownLocation() const

    uint32 data = readData();


    return data;

I do know that this method will leave the object in the same state as it was before the call, but still I cannot make it const because each and every method I use within it is non-const.

So, my question is, what is the best approach when having to temporarily change an object's state within a "by-design" const method?

I thought about const_cast<Reader*>(this) but this seems like a hackish approach. Or do you think it is justified in this scenario?

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if it's const by design, then it's a constant and shouldn't be changed. if it's gonna be changed,then it's not a constant. – Yochai Timmer Dec 6 '12 at 13:06
The change is only happening internally and temporarily. The method will make sure the final object state on return is "identical" to what the user had before he invoked it. That's what I want to show by marking it const. – Dienes Dec 6 '12 at 13:21
Not correct, you can't verify that it will happen. the code (or thread) can fail right after you've jumped ahead and read from the file. then the object itself is in a different state (Think multithreading with an evil thread killing other threads). – Yochai Timmer Dec 6 '12 at 13:23
That is true. So you think saying it is const would just be some vague assumption and not really conforming to const-correctness? Is it best to just leave it non-const and only document that the object's state won't (shouldn't) be affected? – Dienes Dec 6 '12 at 13:32

1 Answer 1

up vote 1 down vote accepted

You can make the position field mutable and then mark your logically read only methods as const.

If you want to keep the pushOffset and popOffset methods in the public API, you should introduce private versions that are const, and use the private ones from within your readSomeDataFromKnownLocation method.

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I cannot make the position mutable and the read methods const because they will yield different results for the user depending on the current position, plus they change the potential result for subsequent calls. – Dienes Dec 6 '12 at 13:17
@Dienes I thought your read methods were restoring the position indicator after the read completes. If that's the case, how do they change the subsequent calls? – vipw Dec 6 '12 at 13:21
There are two kinds of read methods: One that will advance the reading position with each call, and one that do only temporarily move the reading position to retrieve data, but then restore the old position before returning. The latter depend on the former. – Dienes Dec 6 '12 at 13:26
@Dienes Then to make the latter const, you will need to introduce private const versions of the former. It's possible -- I doubt you'll find having two versions of most of your methods to be worth having the readSpecificData() methods const. – vipw Dec 6 '12 at 13:31
I see. So in conclusion it is okay to just leave it non-const and communicate that it will not change the current reading position. Thanks. – Dienes Dec 6 '12 at 13:42

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