When coding in low level languages like C I find that casting sometimes means 'reinterpret these bytes as if it had always been of this other type' and at other times as 'convert this value intelligently into this other type'.
What is the original meaning of the word and is there any consistency in when to expect a conversion and when to expect a raw reinterpretation?
Casting in C is unique, quite unlike other languages. It is also never intelligent.
Casting in C converts values from one type to another using carefully defined rules. If you really need to know, read the standard. Otherwise the main points are:
Some casts are applied implicitly, and in some of those the compiler will issue a warning. Best to heed the warnings!
The dictionary definition for cast is best ignored, as being unhelpful. Many casts are better described by the terms conversion or coercion, so it's worth knowing those too.
C++ is MUCH more complicated, but you didn't ask that, did you?
This part of the Webster dictionary gives the proper definition:
a : to give a shape to (a substance) by pouring in liquid or plastic form into a mold and letting harden without pressure
b : to form by this process
So, before casting, your "object" (not literally an OOP object) is in a given shape (type). When you re-cast it, that is "pour concrete" around it to make it into a new shape, that is what you do with casting. You have a number as a hexagon-shaped integer, and after casting, you will get a rectangle-shaped string.
It may be useful to separate C casts to two groups:
Numeric casts - convert a number between one representation to another, attempting to keep the value. For example - (int)3.1 would be 3. There are exact rules defining what happens when the exact value can't be kept.
Pointer casts - Keep the memory address, but change the way it's dereferenced. For example, for float x=3.5, *(int *)&x will give 1080033280 - this integer is represented by the same bit pattern that represents the float 3.5.
Keep the memory address, but change the way it's dereferenced. Dereferencing a type-punned pointer is not defined. The Standard only guarantees casting from A * to B * & back will produce the same A *, which may not have been valid to dereference in the 1st place - or that if B * is a char *, it can be used to read the object representation of any type. For all other types, dereferencing B * pointer is type-punning, UB, & violates strict aliasing. Anyway, even if the compiler didn't trash the above example 2 for that reason, you're making unportable assumptions about bit patterns
Jul 19, 2016 at 6:15
cast (v): to receive form in a mold
In C++ the various kinds of casts can be made more explicit, with reinterpret_cast meaning "treat these bytes as if they were already this other thing". In C you can make that absolutely explicit by using a union, casting with the (type) operator will attempt to keep the result numerically equivalent, up to loss of precision.
int* that was one word and a char* that was two words [with the second byte selecting the high or low byte of a word]. Casting an (int*) to (char*) would require the addition of an extra word which should be whatever value would specify the the first byte of the int.
castin the computing sense is more similar to casting in the metallurgy sense, whereby the shape of a molten metal is reformed when poured into a mold: britannica.com/EBchecked/topic/377665/metallurgy/81884/Casting