@DeadMG would thread-local cache be sufficient? it would eliminate the need for locking

I asked a dupe, please vote to close

@StackedCrooked: But then you'd get two different std::vector<int> types if they were called from different threads

Awesome, thread-safe types :)

lol

well, I can't have std::vector<int> not being the same type as std::vector<int>

that would just be dumb

actually, you might be on to something

I could use a message-passing design

the problem with that is that I'd be passing messages and stuff for virtually every function call that needs to be thread safe

interesting idea

It's not clear to me what you are trying to achieve. I get you want to implement type equality by associating types with a numeric id?

but then I'd have to deal with a mess of memory allocation and stuff, whereas with a lock then objects can live on the stack in fairly direct correlation to the written code

no

I want to implement type equality with referential equality

i.e., pointer comparison

because honestly, for arbitrary arguments, I can't really see anything else to do

the problem with that is that if you call std::vector<int> twice, it'd make two different types and the referential equality would fail

meaning that if I want concurrent compilation and referential type equality, then I need to concurrently memoize the function

Is this a thought experiment. Or are you planning on building it?

well

I don't want to start building it without a solid plan

I'm still unsure about how I'm going to implement quite a few things... mostly, how I'm going to output C++ and manage that

dealing with definitions and declarations could be a major bitch, even without templates and managing headers automatically

but I'd sure like to make an effort to it

Perhaps BNF, yacc, bison can help here.

absolutely

Not too familiar with stuff like that though.

but then I'd have to have a solid plan as to the grammar, instead of how I'd like it to work

:P

If you manage to build it I'll probably use it.

well

A nicer language that compiles to C++.

if I complete a version that can pre-process into C++, then I can also include some C++ headers too

allowing project migration, something D never had

and I can also grab some MSVC stuff like COM support, C convention support, x64 support, right off the bat

and __declspec(dllexport) and stuff

Almost like preprocessor then.

I've had some interest in the Felix programming language, but never tried it.

It's an ML-like language that compiles to C++.

never really used

you know about it?

I've heard of ML, somewhat

never really looked into it

Neither have I, only indirectly by tinkering with Haskell.

not interested in Haskell, really

what can you do in Haskell that you can't in C++?

Some people think recursive data structures in Haskell are cool.

I think I don't like the language doing my work for me and I like to have explicit control of every operation

My day jobs for the last couple years have been split pretty evenly between haskell, F#, and C++

C programmers also use this argument, and so do assembly programmers.

Practicing pure functional programming techniques in real FP languages is usually good practice for TMP in C++

that's not even remotely the same

Haskell does have this drawback that it makes reasoning about performance difficult.

@DeadMG You say that with.. what experience? ;-]

in C or assembler you have to control every operation of the CPU, whereas in C++ I control every semantic operation

Oh, disregard that, I mistook your reply as being towards me

no prob

@DeadMG I like that about C++ also, and there doesn't seem to be any other language that allows this. (D excluded probably)

@StackedCrooked Ada95

@ildjarn Ada was on my mind, but I don't know enough about it.

Stepanov mentioned in an interview that C++ generics were inspired on Ada.

stepanovpapers.com/drdobbs-interview.html

I did a handful of contracts for the USAF a few years ago, migrating code from Ada to Ada95 and C++, it was pretty comfortably close to the metal

honestly? I don't really care about close to the metal

I care about control

the two are not the same

> There were some interesting ideas, but the research didn't lead to practical results because Tecton was functional. We believed Backus's idea that we should liberate programming from the von Neumann style, and we didn't want to have side effects. That limited our ability to handle very many algorithms that require the notion of state and side effects.

@StackedCrooked I bet he's never used haskell /shrug

@ildjarn Haskell solved some of the problems, but that's unlikely to change his mind.

honestly? I've got nothing against functional programming

it's just like OO programming- it has a place

the problem is, just like in OO programming, where you try to write your whole program rigidly to the exact same set of principles

then you end up with messes like Java

the difference is that since FP is older than OOP, I believe, they noticed the need for generic programming and flexibility sooner than OOP

I like functional programming too. But if you restrict yourself to pure functional paradigm then you can't stay very close to the machine.

@DeadMG I'm not a FP diehard, I just find the mindset is good practice for TMP in C++

@ildjarn There is some incompatibility between FP and C++. For example FP programmer's will frown upon swap, while it is a very important concept in C++

@StackedCrooked I'm talking about template metaprogramming specifically

@StackedCrooked E.g. stackoverflow.com/questions/5869442/…

@StackedCrooked: That reminds me, I really don't like copy-and-swap and I think it might be a fail idiom

@ildjarn ok, C++ compile time programming is a form of FP

@DeadMG And I just started to like it.

imagine in the simple case of std::string, assuming that we have a large string so no SSO

you're assigning one lvalue to another, but where the destination already has enough memory to hold the string

if you copy-and-swap, then you're making a heap allocation unnecessarily

you'd really need

@DeadMG true, but it's an optimization imo

not a general case

the same would be true of any type which holds a container

and I'm guessing that a lot of them do

It only matters for contiguous memory containers.

You can't do this optimization for set or list.

no, I disagree

you can always do that optimization for set or list

because the existing set or list has pre-allocated nodes

for a destination list or set of size N, you'd waste N heap allocations and de-allocations, if the source has a size of N or more

that's some serious wastage

re-using those heap allocations would be a critical optimization

for a contiguous memory containers, it'd at least be only one allocation

This is not very elegant and not very C++-like imo.

no, no, no

C++ is about doing what you have to do and what's best for your current situation

that's it

re-using nodes is extremely C++- it's vastly more efficient for the same semantics

how is algorithmic optimization not C++?

But think of how the implementation now looks:

if (size() >= rhs.size()) {
    copy(rhs);
} else {... }

oh noes

Copy/swap looks much cleaner.

cleanliness is an arbitrary, subjective qualifier with no value whatsoever

just like purity and elegance and all the rest of that crap

It is subjective, but that doesn't mean it doesn't have value.

Paul Graham rant inc

either an algorithm is performant, generic, whatever, or it isn't, and that's it

the only function of that string function is to copy the string, it doesn't have to be generic, so we can cut that need

and if it's more performant, then it's a performance win for no cost

what exact value do you think that cleanliness has? a warm fuzzy feeling when you read the source? fast, clear, optimized algorithms are the objective at hand

Copy/swap works very nicely when dealing with ref-counted resources. Recently I had to develop a C++ wrapper class around the Linux udev library. This library uses refcount mechanism for its resources. So in C++ with copy/swap you can implement it like this:

class Device {
    Device() {
        handle = udev_create();
    }

    Device(const Device & rhs) {
        udev_ref(device);
    }

    Device & operator=(Device rhs) : {
        swap(handle, rhs.handle);
    }

    ~Device() {
        udev_unref(handle);
    }

    udev_device_t * handle;
};

I think this is an example where copy/swap shines.

of course

Because a traditional assignment operator would first deallocate, potentially leading to unintended destruction. So you'd have to pay attention not to do this.

I'm not saying that copy & swap isn't great, or it isn't generic, or even in the most case, it isn't performant

but some generic algorithms have to be specialized

hey, my proposed string operator still uses copy & swap

just only if it's not optimizable

You could compare with benchmarks. If differences are significant then you definitely have a point. I can't tell though.

well, you'd make a tremendous saving in the case of node-based structures like lists, maps, sets, and a fair saving in string/vector/queue/deque/stack

the only question is how often that operation genuinely occurs

the thing is, since there's no downside to it, then it's something for noting

Self-assignment is of course much more expensive with copy/swap.

eh

self-assignment was shown to be so rare that checking for it was slower than being slow when it happened

some guys did some serious research and code-base checking, and it virtually never happened in reality

I mean, actually doing self-assigment is slower.

But that's a thought, not really relevant.

well

when I saw self-assignment checking operators, I was like, hey, that's smart

but, premature optimization, the root of all evil

self-assignment can cause bugs if not checked. Old-fashioned assignment is implemented as: { if (this != &other) { destroy() ; copy(other); } return *this; } . Not doing the check would lead to destruction of itself.

those weren't properly exception safe anyway

indeed

copy-and-swap addresses those issues quite well enough

There was an attempt in Sweden to recognize filesharing as a religion. It failed.

lol

there was a Jedi religion in the UK

some people who hated the census decided to label themselves as Jedi

unfortunately, there's a legal loophole that officially recognizes any religion that has X many followers on the census

so for a while we had an official Jedi religion