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jeea
jeea
03:03
I have a question regarding operator overloading
When we define opertor overloading member function, do we need to return reference to Class? For example, in following, do we need to return refernce to Complex ? 
Complex {
	double real, img;
public:
	Complex& operator=(Complex &c) { // return type Complex&
		real = c.real;
		img = c.img;
	}
	...
}
oh forgot semicolon after class definition
Another question, this one is about iterators, if we have v as vector of int, and we do vector<int>::const_iterator cit = v.begin(); and other time we do vector<int>::iterator = v.cbegin(); are they both same?
oh i understand, second case would not work
type mismatch
Another question, when c++ was being designed so that base class pointers could point to derived class objects, did it cause performance loss to implement this behaviour?
 
4 hours later…
nwp
nwp
07:36
@jeea Sometimes, depends on the operator. For operator = yes.
@jeea There is nothing to implement. You could let anything point to anything and there would not be a cost.
There are certain situations like virtual function calls and pointer conversions in the case of multiple inheritance that is more than just a type-system check, but letting pointers point to things doesn't have a cost in itself.
 
1 hour later…
milleniumbug
milleniumbug
09:10
@jeea With ints, you can write int a = 42, b = 1337, c = 33; a = b = c; and it works, so it is expected that a custom operator= also follows this behaviour.
(i.e. if you want to break this expectaction, you better have a good reason to do so)
@jeea No. All the existing types which don't participate in inheritance hierarchy work like they did before, and so do the pointers.
Sam
Sam
Why does a class need a default constructor? I don't understand that
milleniumbug
milleniumbug
It doesn't
Non-default constructible objects are perfectly fine
ratchet freak
ratchet freak
there are quite a few places where objects get default constructed, but they often can be explicitly constructed in place as well
milleniumbug
milleniumbug
09:28
@jeea Conversion from Derived* to Base* sometimes involves adding a specific offset, only for not-nullptr pointers. But that's not something you can call a performance loss, if it's something that is required to make the feature work in the first place
(also, again, allowing Base* to point to a Derived instance is the entire point of inheritance. That is, inheritance would be useless without it)
Sam
Sam
Ah I think the problem is because I'm trying to have a member object of a class which requires parameters in its constructor
milleniumbug
milleniumbug
You want member initializer list
Sam
Sam
WHats that
milleniumbug
milleniumbug
en.cppreference.com/w/cpp/language/initializer_list
Sam
Sam
So basically make a default constructor which assigns the needed values
milleniumbug
milleniumbug
09:36
...no?
you could make a non-default constructor as well
also, the point is that it's construction, not assignment
Sam
Sam
OK so my class Treatment needs a vector of Effects upon initialisation
ratchet freak
ratchet freak
std::vector default constructs to empty
Sam
Sam 
class Patient
{
public:
	Treatment currentTreatment;
	Patient(std::vector<Covariate>, Treatment);
};
class Treatment
{
public:
	Treatment(std::vector<TreatmentEffect> treatmentStore)
	{
		this->treatmentStore = treatmentStore;
	};
	std::vector<TreatmentEffect> treatmentStore;
};
Should my reference in Patient to currentTreatment include the vector for TreatmentEffect objects?
ratchet freak
ratchet freak 
 Patient::Patient(std::vector<Covariate> covariates, Treatment treatment):currentTreatment(treatment) {

 }
Sam
Sam
Ohh I see. Not sure I understand it
ratchet freak
ratchet freak
09:50
in the bit between the : and { you can list the members and pass each a set of parameters for construction
they are executed in the order they are in the class, not in the order they are listed here.
if they are not listed then they are default constructed instead
Sam
Sam
Ahhh so in the Patient constructor I should have an argument for the parameters needed for the Treatment object, not the Treatment object itself?
ratchet freak
ratchet freak
well you can pass a Treatment object and then copy/move construct the member
I really should have done: 
Patient::Patient(std::vector<Covariate> covariates, Treatment treatment):currentTreatment(std::move(treatment)) {

}
Sam
Sam
Ahhh okay i'm with you. Thanks!
 
6 hours later…
Miroslav Cetojevic
Miroslav Cetojevic
15:33
is there such a thing as a global variable or macro, that describes the default value for built-in types?
for example, I want to write std::fill(v.begin(), v.end(), DEFAULT_INT_VALUE);, where DEFAULT_INT_VALUE is the exact same value that is used for default initialization in general
 
3 hours later…
Miroslav Cetojevic
Miroslav Cetojevic
18:23
This is interesting: I tested std::sort() vs std::qsort() and found that sort was roughly twice as fast as qsort when dealing with std::vector<int>
but when I used vector.data() as the first argument for qsort (basically just a pointer the underlying array), qsort became almost three times faster than sort
Justin
Justin
@MiroslavCetojevic Why not just type{}? int{} would be 0, for example
Miroslav Cetojevic
Miroslav Cetojevic
I don't think I've heard of type{}
Justin
Justin
en.cppreference.com/w/cpp/language/value_initialization
@MiroslavCetojevic If you want us to verify or investigate this, we'd need to have a reproducible benchmark. You could use quick-bench.com
Miroslav Cetojevic
Miroslav Cetojevic
I thought the difference can be explained by the fact that sort used the vector iterators, while I allowed qsort to use a straight-up pointer to the underlying array.
Justin
Justin
There's no explanation possible yet because I have no idea how you called the different functions, on what optimization settings, etc
Miroslav Cetojevic
Miroslav Cetojevic
19:06
1st scenario: `std::sort` gets the `vector` iterators, and `std::qsort` gets `&vector[0]` as 1st argument: https://pastebin.com/wqTt7P2u
2nd scenario: `std::sort` gets the `vector` iterators and `std::qsort` gets `vector.data()` as 1st argument: https://pastebin.com/XZNzHF8h
3rd scenario: both `sort` and `qsort`get pointers as arguments: https://pastebin.com/aaqnLNLp
as it turns out, when both functions use pointers, sort is still twice as fast
I compiled all three with -O3
if someone wants to test this, the number of runs probably should be reduced, because it will take a bit too long otherwise
Mgetz
Mgetz
19:35
@MiroslavCetojevic inlining is an amazing thing
also type safety and easily prefetchable patterns
Miroslav Cetojevic
Miroslav Cetojevic
does qsort not get inlining when compiled with -O3?
either way, both sorts get much, much faster when operating directly on arrays
Mgetz
Mgetz
@MiroslavCetojevic heck no, it's library
Miroslav Cetojevic
Miroslav Cetojevic
@Mgetz meaning what?
Mgetz
Mgetz
@MiroslavCetojevic qsort is part of the cstdlib
Miroslav Cetojevic
Miroslav Cetojevic
ok, and? are you saying, cstdlib doesn't benefit from possible inlining?
Mgetz
Mgetz
19:42
@MiroslavCetojevic usually no unless it's something like memcpy
Miroslav Cetojevic
Miroslav Cetojevic
any particular reason for not using inlining on cstdlib, then?
Mgetz
Mgetz
@MiroslavCetojevic C doesn't have templates
Miroslav Cetojevic
Miroslav Cetojevic
@Mgetz what do templates have to do with inlining?
Mgetz
Mgetz
@MiroslavCetojevic so the compiler doesn't inline across library boundaries (usually static linking is the exception). Templates are almost always inlined because they are header based
jeea
jeea
20:21
@milleniumbug yes now here is my doubt, why return by reference, wouldnt a = b=c work even if we dont return reference
 
4 hours later…
Euri Pinhollow
Euri Pinhollow
23:56
@MiroslavCetojevic qsort is part of C library, STL is all in headers. Have no idea why standard C library could not be sourced and inlined tho, maybe because of how complex it is.

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