Hi, I don't understand why any int (a, b, c, d) can't reproduce the original float value?

godbolt.org/z/5cnT59MK9

When I dump memory in VS I see int and float have same memory contents: MY_FLOAT have same dump with int a = 0x3f9e0610;

But casting a back to float: std::cout << "Value: " << (float)a << std::endl; I don't get exact value as I was expected. Where things are broken?

Here:

godbolt.org/z/YsqhMvbrz

(float&)BYTE_ARRAY[0] is perfectly equivalent with (float)a

I really can't figure it out what is the lose of prefision/error here.

When you cast an int to a float it converts the numerical value

@PeterT Thank you very much, I will make multiple tests to understand.

But this works correctly ((float)&a)

06 10 is 02 C0

in x

via

float e = (float)a;

and

float f = (float&)(((float)&a));

is int a

x is value of converts the numerical value from direct int to float cast

I don't understand the question, I don't see anything 16-bit related

Why for case 3 casting to it's numerical value match just 9e 3f

This are 16 bits what I have mentioned, I try to understand this

Last update: godbolt.org/z/Wr7qYGK3q

I try to understand if memory value 0x3f9e0610 is same as 1.23456F why casting normally with (float) does not return back same memory value as (float&)(((float)&a))

Q:" it converts the numerical value" (just most significative 16bits)?

Or is just a coincidence

This 9e 3f

no it's converting the whole number, it's not a coincidence, it's just because of the bit-representation of float numbers

Is possible in C++ to emulate Voldemort types (wiki.dlang.org/Voldemort_types)

I try to create a buffer array and my function can return variadic type with the same name

I don't want to use templates

I followed that: devblogs.microsoft.com/oldnewthing/20191106-00/?p=103066

With no success, I try to implement a buffer array and push any object to it via push

on pop out a element I don't want to explicitly say it's type and this type somehow to be solved by the calee not via a template method argument.

Trials: godbolt.org/z/WGxre8re5

I think I need somehow to re-implement boost::any but I can't use boost framework as I develop for embedded systems

and you're using a version too old to use std::any ?

std is not alowed also

System is ARM and just NEON extension no std no other stuff

What? ARM has the C++ stdlib

what compiler/OS?

well he said "not allowed" and not "not available"

so it sounds like the typical "someone once made a problem with this, so we'll just ban it for this code-base" stuff

That just sounds dumb

I get banning unstable features, but banning the entire stdlib because of things like that is silly

I could see requiring using custom allocators and thus a set of custom aliases

it's the embedded world go easy on them. Be glad if they already discovered version control systems, that's not a given there.

if my clients are anything to go by... that's not just an embedded problem

This is how it is... Custom OS on a core, custom scheduler on another, everything forbidden for use of std or other extension frameforks, because of RTTI, because exception handling (try/catch) everything is forbidden. Some functions are using dirrectly assembly for sqrt from NEON which is done HW (__asm()), std sqrt or math stuff cannot be resolved correctly to the fastest thing. Everything what consume runtime is bad, we talk about component execution under 1ms usually 500 microseconds.

I try to design a little framework to ease buffering not like is now reading dirrectly from a memory location and dereferencing data to a expected datatype, I am trying to somehow serialize object to simplify calls and return values.

There are a lot of frameworks like autosar like qnx for buffering and I understand these buffering methods (publisher / subscriber) but these frameworks generate the "glue code" buffers automatically and functions and everyting

These virtual busses.

godbolt.org/z/a4a5Wb4d6

Via operator overloading makes me to create a static buffer...

Idk

This auto...

godbolt.org/z/z8GKnce96

@LXSoft you can use most of the stdlib without RAII