What is the meaning of "qualifier" and the difference between "qualifier" and "keyword"?
volatile qualifier in C and we can say that
volatile is a keyword, so what is the meaning of "qualifier"?
A qualifier adds an extra "quality", such as specifying volatility or constness of a variable. They're similar to adjectives: "a fickle man", "a volatile int", "an incorruptible lady", "a const double". With or without a qualifier, the variable itself still occupies the same amount of memory, and each bit has the same interpretation or contribution to the state/value. Qualifiers just specify something about how it may be accessed or where it is stored.
keywords are predefined reserved identifiers (arguably, see below) that the language itself assigns some meaning to, rather than leaving free for you to use for your own purposes (i.e. naming your variables, types, namespaces, functions...).
There's a full list of keywords at http://www.cppreference.com/wiki/keywords/start. C++ doesn't currently have any qualifiers that aren't keywords (i.e. they're all "words" rather than some punctuation symbols).
Where do qualifiers appear relative to other type information?
A quick aside from "what does qualifier mean" into the syntax of using a qualifier - as Zaibis comments below:
A bit (lot?) about identifiers
identifiers themselves are lexical tokens (distinct parts of the C++ source code) that:
If it helps, you can think of identifiers as specified by the regexp "[A-Za-z_][A-Za-z_0-9]*". Examples are "egg", "string", "__f", "x0" but not "4e4" (a
But are keywords identifiers?
For C++, the terminology isn't used consistently. In general computing usage, keywords are a subset of identifiers, and some places/uses in the C++11 Standard clearly reflect that:
(There are alternative forms of some operators -
As Potatoswatter points out in a comment, in many other places the Standard defines lexical tokens
There's also an edge case where the determination's context sensitive:
Non-keyword identifiers you still shouldn't use
Some identifiers, like "std" or "string", have a specific usage specified in the C++ Standard - they are not keywords though. Generally, the compiler itself doesn't treat them any differently to your own code, and if you don't include any Standard-specified headers then the compiler probably won't even know about the Standard-mandated use of "std". You might be able to create your own function, variable or type called "std". Not a good idea though... while it's nice to understand the general division between keywords and the Standard library, implementations have freedom to blur the boundaries so you should just assume C++ features work when relevant headers are included and your usage matches documentation, and not do anything that might conflict.
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