If type of the value cannot be analyzed or found out by looking into the bits(As written in books I have referred), how does the machine know how the value should be manipulated?

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    Everything needs to have some type in C++. That's how. – Benjamin Bannier Feb 4 '14 at 13:34
  • Eventually, deep enough, everything is just bit manipulation. How the bits are manipulated is controlled by the type of the value. – Angew Feb 4 '14 at 13:35
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    @Mgetz This has nothing to do with undefined behavior. – user529758 Feb 4 '14 at 13:38
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    @Mgetz That's not what undefined behavior means. What you are talking about is called "implementation-defined", and it's still irrelevant to the question. – user529758 Feb 4 '14 at 13:40
  • +1: This is actually not an unfair question, if you're not familiar with the way compilers work. – Lightness Races in Orbit Feb 4 '14 at 13:51

C and C++ are statically typed, meaning that types are a compile-time concept. The compiler generates code to manipulate the bits in a manner appropriate to the type; the machine executes that code, and doesn't need to know anything about the type.

  • As a side note, I would like to add that it is possible to manipulate a set of bits with meaning in both cases, such as the Fast Inverse square root calculation used in Quake 3: en.wikipedia.org/wiki/Fast_inverse_square_root . To summarize, a 32-bit float is manipulated as an integer for a few instructions because it was a faster method to get an approximate result. – zebediah49 Feb 4 '14 at 22:27

The compiler knows the type of every variable because you must declare each type. So the compiler generates the appropriate instructions for dealing with a variable of any particular type.


The machine does not know: it's the compiler who knows. The same code for different types won't generate the same machine code.


The C or C++ compiler knows. So it knows to generate a MULTIPLY REAL vs a MULTIPLY UNSIGNED INTEGER vs. a MULTIPLY SIGNED INTEGER assembly instruction. Sure, at our level, it's all just a *, but that's the primary objective of a compiler - to generate the assembly code necessary to yield our desired result.


It is known to the compiler at compile time. When the program runs then this area of memory is manipulated according to the compiled code. This is why C++ and C# force defining types in source code.

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