I have a habit where for complicated template classes (template of template parameters) I make a #define for the template header and template parameters so that I don't repeat them for every member function of my class, and so that if I do a change to the template parameters, I remain on the safe side of not doing a mistake. Is this a bad habit? I got yesterday criticised by a fellow programmer for that. What do you think?
mixing #defines and templates seems like a terrible idea, but without seeing the code I'm not completely sure the #define version is worse than the regular version
@TheQuantumPhysicist Because of their global scope and as consequence because they can make good code bad just because you collided with some existing macro.
So you guys think it's better/safer to copy/paste all template headers and it's not that bad to have to change all template instances when the template header has to be changed?
Actually I use macros quite very often. For example, if I have a program that uses some Math libraries for matrices, I define macros for general functions like inverses, SVD, matrix exp, etc... and then switch libraries by a single define...
maybe some day we can have using HashBucket_TemplateHead = template <template <typename Key, typename Value> class T, typename Key, typename Value>;. Still feels like obfuscation to me, but at least the obvious issues are gone.
For some job application I was asked to create a thread-safe HashMap. So I used the code you see above to alias all complicated template calls. I'm going to submit this code soon (unless you guys scare me enough to change it back to copies of template code)
@Ven I'm Arab actually. But what does that have to do with what I said?
I'm not saying all Muslims are terrorists or all Muslims are so and so
I'm merely talking about a religion. It's an ideology.
Some people have a moral compass that's better than Islam, even though they think they are Muslims, but they only use a subset of what Islam says and follow it selectively, while ISIS does everything that Islam says
I've been running into some issues that only occurred during Release x86 mode and not during Release x64 or any Debug mode. I managed to reproduce the bug using the following code:
#include <stdio.h>
#include <iostream>
using namespace std;
struct WMatrix {
float _11, _12, _13, _14;
flo...
The point is that people have come to appreciate the sanctity of human values more than that book
@caps I think it quite fits what's going on, because the same headline problems we see now adays in Muslim countries is the same that was in Europe, like 500 years ago
@Abyx That may also because Europe has fewer Christians, proportionally, than most of the rest of the world, but I think you would be hard pressed to find a country where "radical Christianity" would be a motive for war.
@caps Well this comes back to my theory: The majority believes that Human rights is more important than following that ancient book, and hence they invent interpretations to make it peaceful and more appealing
@Abyx You can't dismiss that radical Islam provides a (seemingly morally justified) outlet for revenge on the Westerners who have (sometimes rightly and sometimes wrongly) been accused of doing great harm to the ME.
"Stop bombing Syria" is something you hear ISIS terrorists say to the west.
@TheQuantumPhysicist Here's my theory: the west believes in human rights because Christianity is an integral part of Western philosophical DNA. The west may have taken it in directions Christianity did not, but I think that's where the idea originated.
We sit on a round table, and agree that "this is not clear, let's make it clear"
Boom. Done!
@Abyx Again, how could a document that makes all humans equal by giving them exactly the same rights, be used for someone's interest or political agenda
@TheQuantumPhysicist well here is an example. West blames non-allied countries like Russia for violation of human rights on every possible occasion. But de-facto ignores violations in allied countries, like Turkey.
"human rights" it's nothing but a political instrument.
@Mysticial I hesitate to call any of it "optimization". The code produced for both is almost humorously bad. For example, the compiler has managed to take a simple mov ecx, 16 and turn it into push 16\npop ecx in both of them. Seems like the sort of thing even the simplest peephole optimizer would fix, but for some reason, theirs apparently doesn't recognize this pattern.
anyways, the point is that this international human rights things was invented to harass other countries. Because locals laws are enough to have appropriate human rights in your own country.
If anyone is interested, the optimization that is "breaking" this is most likely Scalar Replacement of Aggregates. The compiler is able to prove that matrices don't alias with anything and that nothing (except for _11) has its address taken. So the compiler is "pulling" the rest of the fields out of the struct and optimizing them as scalars rather than as members with a specific location in memory. That's why *(&out._11 + idx) doesn't work because the fields are no longer where you expect them to be. — Mysticial1 min ago
@Abyx Two things: First: Say that's true, does that make us blame the document? Second: Iraq and Libya were attacked for different reasons that have nothing to do with human rights
@TheQuantumPhysicist I don't think it was really particularly because they were black. The largest, most convenient supply of people who were relatively easy to enslave were in Africa, so they happened to be black. It's undoubtedly true that having an obvious differentiation between slaves and masters was convenient (for the masters) as well, but it was still more or less incidental. Before transportation from Africa was convenient, whites enslaved other whites quite routinely.
I don't know African history quite as well, but I'd be rather surprised if there wasn't a fair amount of slavery there where blacks enslaved other blacks. Likewise, in North America native Americans routinely enslaved other native Americans. Lack of obvious differentiation between groups doesn't seem to have made much difference in what happened (at least as a rule).
@JerryCoffin Btw, that optimization that I mentioned, "Scalar Replacement of Aggregates" is one of those "do-or-die" optimizations that I've come to rely on for zero-overhead abstractions. It lets you wrap things in a struct without any overhead - somewhat critical for TMP.
Default copy-constructors and copy-assignment for POD structs will inhibit that optimization because the standard requires it to be the same as memcpy'ing the entire struct.
So I often find myself implementing copy-constructor/assignments for PODs by manually assigning the fields for this very reason.
@Mysticial Ah, the tangled webs we weave, when we practice to deceive (the compiler into getting out of its own way, and producing decent code in spite of itself).
@JerryCoffin Pretty sure that Romans enslaved other Romans quite liberally, and some of the treatment of e.g. early English peasants was little better.
@JerryCoffin Yeah. One of the (ab)use-cases of this optimization that I over-use is making local copies of a very large struct to work-around the compiler's failure to disambiguate memory. For example:
struct MetaData{
double a, b, c, d, e, ...
};
void func(const MetaData& meta, double* x){
for (int c = 0; c < 100; c++){
x[c] *= meta.a;
}
}
When restrict semantics fail, the compiler will reload meta.a at every loop iteration.
The work-around is to do this instead:
void func(const MetaData& meta, double* x){
const MetaData local(meta);
for (int c = 0; c < 100; c++){
x[c] *= local.a;
}
}
The MetaData object is a zero-overhead abstraction that changes types depending on what I'm compiling for.
Intuitively, you would think that this is bad because you copy the entire struct.
True, you do. But once the compiler applies SRA (Scalar Replacement of Aggregates), it turns it into individual loads of all the fields. You're only using one of them, and DCE (dead code elimination) wipes out the loads for the rest of the struct.
@LucDanton I'm not sure on exactly what the details are, but most compilers implement large POD copies as memcpy() which completely prevents SRA.
@Puppy England was better than most in this regard. Really early on, serfs had essentially no rights at all, but England abolished serfdom quite a bit earlier than most countries (circa 1400, if memory serves). Peasants were still treated pretty poorly, but there was at least some minimal recognition that there was some limit on how much you could abuse them.
@StackedCrooked The example here isn't great. The real use-case is similar to this:
struct MetaData{
double a, b, c, d, e, ...
double operate(double x){
return a;
}
};
void func(const MetaData& meta, double* x){
for (int c = 0; c < 100; c++){
x[c] *= meta.operate(x);
}
}
The MetaData object differs by compilation target. func only knows that operate() exists. It knows nothing about the fields which also differ by compilation target.
Some targets use only 1 field. Some use multiple fields. At run-time, I only want to copy the ones that I use onto the stack to help the compiler disambiguate it with the x array.
@StackedCrooked Ah. I used to directly access the members. But different targets had different optimal ways to do a SIMD 64-bit integer multiply. For targets where vectorization is disabled, the MetaData struct had only one 64-bit integer and simple operate() method. For targets with SIMD, the MetaData struct has 2 elements (each with half the operand), and the operate() did the bignum expansion of a 64-bit multiply as multiple 32-bit multiplies.
Then later versions of SIMD (SSE4.2) had better implementations for a SIMD 64-bit multiply. So they had their own versions of MetaData with their own customized set of fields.
@caps Sure--the Europeans weren't interested in trekking through the jungle to find slaves when they could find others who were already familiar with the local terrain and society who were entirely willing to do that for them.
So basically, the loop (with the local copy of `MetaData`) is only efficient when all of the following optimizations are applied: 1. Inlining of `operate()`. 2. Scalar Replacement of Aggregates on `MetaData`. 3. Dead Code Elimination of the unused portion of `MetaData`. 4. Register promotion of the used portion of the local copy of `MetaData`.
I had a nice little `map<string, string>` and everything was fast and easy to understand. Then I thought that a radix tree would be better and things got more complicated. Now I'm thinking that every node is dynamically allocated and contains a string that also gets dynamically allocated; they should be allocated together.
I think I'm gonna prematurely optimize the shit out of this code and hope I get cured for a while.
@caps not sure, maybe not possible to get the allocation thing correct without UB
@StackedCrooked the baseline is ridiculously good since a map<string, string> is pretty simple and performs well, so there is no chance winning in clearness and the microseconds saved will not be noticeable
@LucDanton func doesn't know about the fields from the source code POV. At compile-time, the processor picks the right MetaData which is included before the body of func(). So at compile-time it will know the fields of MetaData.
@caps More to the point, many people tend to be more concerned about themselves than others. They'll treat others like crap primarily if they see a benefit to themselves in doing so (but, for better or worse, there often is).
@Mysticial I think I see what you are getting at. you can totally have a auto loaded_things = meta.load(x); x[c] *= meta.operate(loaded_things); if you want btw if that has any hope of helping the compilers
not that copying outright the meta object is not a great solution
@LucDanton I thought about having a separate "smaller" object that contains only what is needed for each operate() method that it has. But that got a little unwieldy in terms of code-bloat.
Doing that only solves #3 - which all compilers are already able to do.
It would also solve #1 if MetaData lacked a copy-constructor that manually copied each of the fields. (due to the memcpy() pessimization)
Being a theoretical physicist, I always have a great respect for Spherical Cow. So I thought about making one myself. I am not sure how can I create (something considered to be the simplest!) this marvel.
One possible way could be using the ExampleData for Cow and map it on a sphere - something ...
Morning guys :) Quick redirect question - does anyone know what the specific term is for template specs with < ... >?
I tried searching up optional/default template args, but that led to < typename T, typename U=T, typename V=U >, and searching with the literal "..." didn't give me much information either
Ah, got it. Thanks! : ) It's called a template pack
I hate templates.
Ugh - Additional question: Does anyone know how to give a template pack a default typename type?
Here's a coliru for y'all to play around with the normal template packing & unpacking behavior: coliru.stacked-crooked.com/a/8bce332e3a5674c4 I've been using it to attempt default values(don't see it in the docs)