Hi all,
I'm trying to solve a part of my program, which has a #define new. Everything works well, until I try to create a class template that overrides the new operator, when I get the errors:
C:\Define_New_problem\main.cpp:18: error: expected type-specifier before 'dPushMemManFileLine'
C:\Defi...
@Als Yep. It takes a while to bully all the kids out of house, so I have to get up early enough. (Now one of them is already on the way, one has breakfast, and the others are still sleeping, so I got a sec to breathe in between.
I sent someone an SMS on Sat evening, and now he gets it once every hour. This morning he's got the 60th. We've both restarted our mobile phones, and he's contacted his provider, which, of course, denies any blame in this. I have now contacted mine, but I have little hope that they would take the blame. I dearly hope I won't get charged for this.
@sbi: Oh its a good percentage of that quota....you should complain the service centre, even better tell them you are changing your service provider if you get billed for those.
off for a bit....meet on digital audio video sync!
@sbi Some phones allow an option to keep sending SMS if the previous try didn't make it or they get no notification of it. Look if it's hidden somewhere in your SMS settings, a simple restart won't fix it.
@Als Not so unlikely like I've seen some cases. Normally though you don't notice it, as your phone gets notified that the message sending was successful
@Xeo Thanks. I looked into this. There was a setting "message validity" (somewhat misleading, given the German translation "Sendeversuche"), which was set to maximum (with other valid settings being 1, 6, 24, 72hrs or 1 week). I set this to 24hrs. Let's see...
I read some were that a new C++ language was being created...is this true??
if so does anyone no how the Dev goes? I believe it was meant to come out in 2010 but was delayed?
I am using timer_create to create a timer in Linux. The callback prototype is:
static void TimerHandlerCB(int sig, siginfo_t *extra, void *cruft)
How can i pass user data so that i can receive the same in the callback called after timer expiry.
Here's my sample code:
int RegisterTimer(iDi...
@TonyTheTiger Well, typename originally was introduced to disambiguate dependent names. Since they had a new keyword anyway (C++ traditionally has had a cautious attitude towards introducing new keywords, because they tend to break old code), and since it would be a better fit than class for template parameters, it was proposed and accepted as an alternative.
@TonyTheTiger You need to disambiguate with typename whenever and identifier's meaning could change with a template parameter. The classic is X<T>::Y: depending on T, Y could be the name of a type or member of X<T>, and, in theory, this might even change with different types for T, because X could be strangely specialized.
@Tony: Along the same lines, X<T>::Y<Z could be a comparison of X<T>::Y with Z or the beginning of X<T>::Y<Z>, which refers to an instance of Y, defined within X<T>, with Z as a template parameter. You need to inject a template if you mean the latter: X<T>::template Y<Z>.
When calling it, you may have to disambiguate and make the template parameters explicit, if the function arguments don't make it unambiguous: auto x = func<T>();
It's one of those terminology problems (IMO); passing by reference is referentially transparent whereas passing by pointer is not, but still allows the same range of side-effects...
@AProgrammer ah, but essentially to me pass-by-value means the value of the variable is copied into the param, pass by ref means, you're only getting something referring to the actual value of the variable, and since refs and pointers refer to their actual values, this is pass by ref, but I could be entirely wrong too
@Tony 'reference' can have a technical meaning where pass by reference is quite different from pass by pointer, but you are correct that c++ programs can use the two strategies to do the same things
@Tony, you can achieve the effect of pass by reference by passing a pointer and then dereference it. But the pointer is passed by value. At least if you take a "compiler implementer" POV. Language theoricians seem to have reused the terms with a related but subtly different meaning.
Then simple programmers are more concerned by the effect than the underlying implementation techniques...
@TonyTheTiger f(int* i) is passing a pointer by value (some also say "passing an int by pointer"), whereas f(int& i) is passing an int by reference. In C++, you cannot pass a reference by value. (You can in Java, and that's exactly what happens there.)
The singlemost important difference between pointers and references is, in my opinion at least, that you can bind rvalues to certain kinds of references, but you cannot apply the address-of operator to an rvalue.
That is, you can pass std::string("hello!") to a function taking an lvalue-reference-to-const or an rvalue-reference, but you cannot say &std::string("hello!") and pass that pointer to a function taking a const std::string*.
Because by definition, the & operator only works on lvalues.
@FredOverflow I dunno. In fact, I asked this myself before. I think, over the last one or two decades, the No-new-Keywords policy has acquired quite a few serious dents. I think we're approaching a three digit number of keywords.
To me the difference is that between f(int& i) and f(int i) the code can be the same. Between f(int* i) and f(int i) it can't be the same, because you're passing different values, but still just values.
and there are two figures 6.2 and 6.3 in this link: imm.io/5xFy
i did not understand these two questions :
1.i did not completely understand the figures for this first difference system. 2.the DC component with omega=0, completely removed from the system.. how ? and system is higher frequency relative to low frequency. how ..?
hi all,
i have the concept of first different system given in the link
and the real ,maginary,phase and magnitude are plotted in this link .
i did not completely understand the figures for this first difference system.
the DC component with omega=0, completely removed from the system.. how...
@Nils You got it while building an executable from a single source file. Compilers never omit linker errors. (Oh, and those are easy to create: just declare something, or include some declaration, that isn't defined in that single file.)
@FredOverflow It would be ambigous. C has this notion of that tag name are different from type name that C++ has to support for compatibility (Unix stuct stat stat() for instance) even if it is used quite rarely in other context.
Note that the implementer POV is not the same as the language designer POV. One implementation technique can be used to implement different semantic and a given semantic can be implemented in different way. Some language leave some aspects implementation defined in order to allow different implementation techniques. IIRC, Ada `in` parameter can be implemented as by reference of by value (exccepted in some cases were by value -- simple types -- or by reference -- tagged types, more or less classes with virtual functions in C++ terms -- is mandated).
@TonyTheTiger Ada in parameters are read only parameter. out are write only and in out are read write. out parameter can be implemented as result parameter (more or less the equivalent of function result) or reference and in out as copy-result or reference.
@MartinhoFernandes If you take into account that for all practical purpose (I don't remember in standardese terms) virtual functions are always used, yes
@Nils You cannot serialize a vector by writing a binary representation of the vector object. You will only serialize book-keeping information and lose the actual data which is stored outside of the vector object.
@FredOverflow You had me wonder and I checked. I remembered a lot of similarities in the expression syntax, but after checking I misremembered. So if there is an influence it is weaker than I though.
I have a small hierarchy of objects that I need to serialize and transmit via a socket connection. I need to both serialize the object, then deserialize it based on what type it is. Is there an easy way to do this in C++ (as there is in Java)?
Are there any C++ serialization online code sample...
> There are also mechanisms which let you handle serialization of pointers (complex data structures like tress etc are no problem), derived classes and you can choose between binary and text serialization. Besides all STL containers are supported out of the box.
@TonyTheTiger If you specialize a class template, it has no knowledge of the non-specialized version and hence does not know about its member functions.
A class template specialization can have a completely different set of members.
"However, if you specialize a class template, you must also specialize all member functions. Although it is possible to specialize a single member function, once you have done so, you can no longer specialize the whole class."
> Through the magic of expression templates, this is perfectly valid and executable C++ code. The production rule expression is, in fact, an object that has a member function parse that does the work given a source code written in the grammar that we have just declared.
@TonyTheTiger Of anything you want. You write the grammar.
> Spirit is a set of C++ libraries for parsing and output generation implemented as Domain Specific Embedded Languages (DSEL) using Expression templates and Template Meta-Programming. The Spirit libraries enable a target grammar to be written exclusively in C++. Inline grammar specifications can mix freely with other C++ code and, thanks to the generative power of C++ templates, are immediately executable.
TL;DR
How is phase in a delay system represented by the equation of a straight line with slope equal to -n?
Background:
There is delay system concept given in this link:
But, I did not understand the phase response of this dely system by diagram.
Diagram details are given in this link (crop...
Note that I wonder how usable Spirit really is. I remember checking an older version and I had trouble to know how to handle errors in the input (this handling is usually the weak point of parser generators, in Spirit it looked like weaker than usual but I could have been mistaken by some aspect, and it can have evolved).
I am reading the Complete Guide on Templates and it says the following:
Where it is talking about class template specialization.
However, if you specialize a class
template, you must also specialize all
member functions. Although it is
possible to specialize a single member
function,...
They are POSIX. So a suitable _POSIX_C_SOURCE will bring them in a POSIX compliant implementation (I think they are old enough that in fact the value as long as it is numerical doesn't matter for that).
(I doubt _USE_MATH_DEFINES will be usefull on POSIX systems)
Idempotence ( ) is the property of certain operations in mathematics and computer science, that they can be applied multiple times without changing the result. The concept of idempotence arises in a number of places in abstract algebra (in particular, in the theory of projectors and closure operators) and functional programming (in which it is connected to the property of referential transparency).
The term was introduced by Benjamin Peirce in the context of elements of an algebra that remain invariant when raised to a power, and literally means "(the quality of having) the same power", ...
Basically it means you can #include them twice without problem.
The act of isolating the problem into a simple example that reproduces it tends to keep my question asking rate on SO very low. It's a great debugging technique.
@FredNurk well it works if I include it in some test file and I haven't written the code where I try to include it, so I guess the problem is not reproducible for you, just forget about it :)
@Nils some test-cases inherently require multiple files, that is fine; what isn't fine is the opposite: not attempting to reduce to a single-file (because that's usually possible)
I am reading the Complete Guide on Templates and it says the following:
Where it is talking about class template specialization.
However, if you specialize a class
template, you must also specialize all
member functions. Although it is
possible to specialize a single member
function,...