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#define EVENT_TYPE(DO) DO(EVENT_UNKNOWN), DO(EVENT_SIP), DO(EVENT_MEDIA), \
                     DO(EVENT_APP), DO(EVENT_TIMER), DO(EVENT_BREAK),  \
                     DO(EVENT_STOP), DO(EVENT_MAX)

how to understand this code sample about define in c++?

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closed as not a real question by Ed S., bensiu, Joce, Yuushi, Blastfurnace Mar 26 '13 at 4:06

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

2  
By looking up what is passed to it (DO) and the associated arguments. How could we possibly tell you what it does without that? –  Ed S. Mar 26 '13 at 3:10

2 Answers 2

Macros are simple substitutions. So whatever you put in EVENT_TYPE's arg get's substituted where you see "DO" in the list of events at the right. E.g., EVENT_TYPE( GUI ) would be replaced with:

GUI(EVENT_UNKNOWN), GUI(EVENT_SIP), GUI(EVENT_MEDIA), \
GUI(EVENT_APP), GUI(EVENT_TIMER), GUI(EVENT_BREAK),   \
GUI(EVENT_STOP), GUI(EVENT_MAX)

It's possible that this is intended to be used with other macros so that GUI (or whatever is in there) would itself be a macro that would do something like, say, prepend a namespace (so the first element becomes MyNamespace::MyUI::EVENT_UNKNOWN) or concatenates identifier strings (so the first element becomes GUI_EVENT_UNKNOWN).

Update: From your comment:

#define STRINGIFY(VAR) #VAR

makes a string out of whatever you put in var. Typically that will be a variable name, but it could be an expression. So the preprocessor will transform:

int i = 42;
std::cout << STRINGIFY(i)   << " = " << i << '\n' 
          << STRINGIFY(i+1) << " = " << i+1 << '\n';

into

int i = 42;
std::cout << "i"   << " = " << i << '\n' 
          << "i+1" << " = " << i+1 << '\n';

which will print:

i = 42
i+1 = 43

You can also do symbol concatenation:

#define CONCAT(X) prefix_##X##_suffix

int CONCAT(myVar) = 42;

will become:

int prefix_myVar_suffix = 42;

You can also do string concatenation, but I'll leave that as an exercise for the reader.

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what about #define MAKE_STRINGS(VAR) #VAR? –  jiafu Mar 26 '13 at 3:30
    
Posted an update. –  metal Mar 26 '13 at 12:22

It does text substitution to replace DO with whatever you give it, such as a function or functor. The generated code would call the function of functor you pass in place of DO for each of EVENT_UNKNOWN, ... and returns them as if you placed them a, b, c.

You might use it to create enumerations on a set of events. For example:

// create array of all of EVENT_UKNOWN... as integers
int array[] = { EVENT_TYPE((int)) };

// Create array of strings
class Foo {
public:
   std::string operator()(int val) { ... }
};

Foo f;
std::string strings[] = { EVENT_TYPE(f); }
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thanks, what about #define MAKE_STRINGS(VAR) #VAR –  jiafu Mar 26 '13 at 3:30
    
The # in the macro expansion is known as stringification, or the replacement with the exact string literal. So, EVENT_TYPE(MAKE_STRINGS) would return the comma separated list of strings of each of "EVENT_UNKNOWN", ... –  Jonathan Seng Mar 26 '13 at 17:53

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