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kandi X-RAY | boost Summary
kandi X-RAY | boost Summary
The Boost project provides free peer-reviewed portable C++ source libraries. We emphasize libraries that work well with the C++ Standard Library. Boost libraries are intended to be widely useful, and usable across a broad spectrum of applications. The Boost license encourages both commercial and non-commercial use and does not require attribution for binary use. The project website is www.boost.org, where you can obtain more information and download the current release.
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QUESTION
I have created an app using React Native and am trying to create an iOS app store build through Expo's eas-cli.
When running eas build --platform ios
the Fastlane build failed with unknown error
After checking the "Run Fastlane" section in the Expo build log, multiple errors are shown:
Error 1:
...ANSWER
Answered 2021-Oct-06 at 06:11There are a number of things to look into.
If you are running Expo in the SDK then no need for cocoa pods just the most up-to-date version of the CLI tool.
Run expo --version
to determine what version you are currently working with. Update if needed.
Adding a profile might be useful too. Along with checking your config. Configuring EAS Build with eas.json
eas build --platform ios --profile distribution
Also, be sure that all the apple certificates are active and connected to your Expo account for that project.
QUESTION
I am amazed at how many topics on StackOverflow deal with finding out the endianess of the system and converting endianess. I am even more amazed that there are hundreds of different answers to these two questions. All proposed solutions that I have seen so far are based on undefined behaviour, non-standard compiler extensions or OS-specific header files. In my opinion, this question is only a duplicate if an existing answer gives a standard-compliant, efficient (e.g., use x86-bswap
), compile time-enabled solution.
Surely there must be a standard-compliant solution available that I am unable to find in the huge mess of old "hacky" ones. It is also somewhat strange that the standard library does not include such a function. Perhaps the attitude towards such issues is changing, since C++20 introduced a way to detect endianess into the standard (via std::endian
), and C++23 will probably include std::byteswap
, which flips endianess.
In any case, my questions are these:
Starting at what C++ standard is there a portable standard-compliant way of performing host to network byte order conversion?
I argue below that it's possible in C++20. Is my code correct and can it be improved?
Should such a pure-c++ solution be preferred to OS specific functions such as, e.g., POSIX-
htonl
? (I think yes)
I think I can give a C++23 solution that is OS-independent, efficient (no system call, uses x86-bswap
) and portable to little-endian and big-endian systems (but not portable to mixed-endian systems):
ANSWER
Answered 2022-Feb-06 at 05:48compile time-enabled solution.
Consider whether this is useful requirement in the first place. The program isn't going to be communicating with another system at compile time. What is the case where you would need to use the serialised integer in a compile time constant context?
- Starting at what C++ standard is there a portable standard-compliant way of performing host to network byte order conversion?
It's possible to write such function in standard C++ since C++98. That said, later standards bring tasty template goodies that make this nicer.
There isn't such function in the standard library as of the latest standard.
- Should such a pure-c++ solution be preferred to OS specific functions such as, e.g., POSIX-htonl? (I think yes)
Advantage of POSIX is that it's less important to write tests to make sure that it works correctly.
Advantage of pure C++ function is that you don't need platform specific alternatives to those that don't conform to POSIX.
Also, the POSIX htonX are only for 16 bit and 32 bit integers. You could instead use htobeXX functions instead that are in some *BSD and in Linux (glibc).
Here is what I have been using since C+17. Some notes beforehand:
Since endianness conversion is always1 for purposes of serialisation, I write the result directly into a buffer. When converting to host endianness, I read from a buffer.
I don't use
CHAR_BIT
because network doesn't know my byte size anyway. Network byte is an octet, and if your CPU is different, then these functions won't work. Correct handling of non-octet byte is possible but unnecessary work unless you need to support network communication on such system. Adding an assert might be a good idea.I prefer to call it big endian rather than "network" endian. There's a chance that a reader isn't aware of the convention that de-facto endianness of network is big.
Instead of checking "if native endianness is X, do Y else do Z", I prefer to write a function that works with all native endianness. This can be done with bit shifts.
Yeah, it's constexpr. Not because it needs to be, but just because it can be. I haven't been able to produce an example where dropping constexpr would produce worse code.
QUESTION
In the following example I start a worker thread for my application. Later I post some work to it. To prevent it from returning prematurely I have to ensure "work" is outstanding. I do this with a work_guard object. However I have found two other ways to "ensure" work. Which one should I use throughout my application? Is there any difference?
...ANSWER
Answered 2022-Feb-21 at 17:14My knowledge comes from e.g. WG22 P0443R12 "A Unified Executors Proposal for C++".
Some differences up front: a work-guard
- does not alter the executor, instead just calling
on_work_started()
andon_work_finished()
on it. [It is possible to have an executor on which both of these have no effect.] - can be
reset()
independent of its lifetime, or that of any executor instance. Decoupled lifetime is a feature.
On the other hand, using prefer/require to apply outstanding_work
sub-properties:
- modifies existing executors
- notably when copied, all copies will have the same properties. This could be dangerous for something as invasive as keeping an execution context/resources around.
However, not all properties are requirable in the first place. Doing some reconaissance using Ex
defined as:
QUESTION
Looking into UTF8 decoding performance, I noticed the performance of protobuf's UnsafeProcessor::decodeUtf8
is better than String(byte[] bytes, int offset, int length, Charset charset)
for the following non ascii string: "Quizdeltagerne spiste jordbær med flØde, mens cirkusklovnen"
.
I tried to figure out why, so I copied the relevant code in String
and replaced the array accesses with unsafe array accesses, same as UnsafeProcessor::decodeUtf8
.
Here are the JMH benchmark results:
ANSWER
Answered 2022-Jan-12 at 09:52To measure the branch you are interested in and particularly the scenario when while
loop becomes hot, I've used the following benchmark:
QUESTION
Here is a basic Spinlock implemented with std::atomic_flag
.
The author of the book claims that second while in the lock()
boosts performance.
ANSWER
Answered 2022-Jan-28 at 05:13Reading a memory address does not clear the cache line.
Writing does.
So in a modern computer, there is RAM, and there are multiple layers of cache "around" the CPU (they are called L1, L2 and L3 cache, but the important part is that they are layers, and the CPU is at the middle). In a multi-core system, often the outer layers are shared; the innermost layer is usually not, and is specific to a given CPU.
Clearing the cache line means informing every other cache holding this memory "the data you own may be stale, throw it out".
Test and set writes true and atomically returns the old value. It clears the cache line, because it writes.
Test does not write. If you have another thread unsynchronized with this one, it reading the cache of this memory doesn't have to be poked.
The outer loop writes true, and exits if it replaced false. The inner loop waits until there is a false visible, then falls to outer loop. The inner loop need not clear every other cpu's cache status of the value of the atomic flag, but the outer has to (as it could change the false to true). As spinning could go on for a while, avoiding continuous cache clearing seems like a good idea.
QUESTION
As mentioned in my question title, I'm trying to run pod install
following an update to React Native 0.66, and I keep getting the following error:
ANSWER
Answered 2021-Oct-20 at 14:40I recently encountered a similar issue with boost after updating react native. After the panic wore off, and some good coffee, I was able to resolve by doing the following:
- Open the
/ios/.xcworkspace
file in Xcode. - Raise the iOS Deployment Target (in my case I only bumped to 10).
- Product > Clean Build Folder, then Product > Run.
- Locate the boost error in the issue navigator and identify which pod the error is listed under (in my case it was RNReanimated).
- Update the node package related to the pod (in my case,
npm update react-native-reanimated
- Finally, run
pod install
After performing those steps, I was able to get my project up and running again.
QUESTION
My computer uses a CPT of Intel(R) Core(TM) i7-10750H CPU @ 2.60GHz 2.59 GHz. Also my RAM memory size is 16 GB. When I run the following panel VAR model "pvargmm" in R,
...ANSWER
Answered 2021-Dec-14 at 00:24Not an answer, but this might help someone else answer this. I coded this to re-create a data.frame of the size @Eric is working with.
QUESTION
#include
#include
#include
#include
using namespace std;
const int p[9] = {1, 10, 100,
1000, 10000, 100000,
1000000, 10000000, 100000000};
class MyTimer {
private:
std::chrono::time_point starter;
std::chrono::time_point ender;
public:
void startCounter() {
starter = std::chrono::steady_clock::now();
}
double getCounter() {
ender = std::chrono::steady_clock::now();
return double(std::chrono::duration_cast(ender - starter).count()) /
1000000; // millisecond output
}
};
int convert1(char *a) {
int res = 0;
for (int i=0; i<9; i++) res = res * 10 + a[i] - 48;
return res;
}
int convert2(char *a) {
return (a[0] - 48) * p[8] + (a[1] - 48) * p[7] + (a[2] - 48) * p[6]
+ (a[3] - 48) * p[5] + (a[4] - 48) * p[4] + (a[5] - 48) * p[3]
+ (a[6] - 48) * p[2] + (a[7] - 48) * p[1] + (a[8] - 48) * p[0];
}
int convert3(char *a) {
return (a[0] - 48) * p[8] + a[1] * p[7] + a[2] * p[6] + a[3] * p[5]
+ a[4] * p[4] + a[5] * p[3] + a[6] * p[2] + a[7] * p[1] + a[8]
- 533333328;
}
const unsigned pu[9] = {1, 10, 100, 1000, 10000, 100000, 1000000, 10000000,
100000000};
int convert4u(char *aa) {
const unsigned char *a = (const unsigned char*) aa;
return a[0] * pu[8] + a[1] * pu[7] + a[2] * pu[6] + a[3] * pu[5] + a[4] * pu[4]
+ a[5] * pu[3] + a[6] * pu[2] + a[7] * pu[1] + a[8] - (unsigned) 5333333328u;
}
int convert5(char* a) {
int val = 0;
for(size_t k =0;k <9;++k) {
val = (val << 3) + (val << 1) + (a[k]-'0');
}
return val;
}
const unsigned pu2[9] = {100000000, 10000000, 1000000, 100000, 10000, 1000, 100, 10, 1};
int convert6u(char *a) {
return a[0]*pu2[0] + a[1]*pu2[1] + a[2]*pu2[2] + a[3] * pu2[3] + a[4] * pu2[4] + a[5] * pu2[5] + a[6] * pu2[6] + a[7] * pu2[7] + a[8] - (unsigned) 5333333328u;
}
using ConvertFunc = int(char*);
volatile int result = 0; // do something with the result of function to prevent unexpected optimization
void benchmark(ConvertFunc converter, string name, int numTest=10000) {
MyTimer timer;
const int N = 100000;
char *a = new char[9*N + 1];
double runtime = 0;
for (int t=1; t<=numTest; t++) {
// change something to prevent unexpected optimization
for (int i=0; i<9*N; i++) a[i] = rand() % 10 + '0';
timer.startCounter();
for (int i=0; i<9*N; i+= 9) result = converter(a+i);
runtime += timer.getCounter();
}
cout << name << ": " << runtime << "ms\n";
}
int main() {
benchmark(convert1, "slow");
benchmark(convert2, "normal");
benchmark(convert3, "fast");
benchmark(convert4u, "unsigned");
benchmark(convert5, "shifting");
benchmark(convert6u, "reverse");
return 0;
}
...ANSWER
Answered 2021-Dec-20 at 12:59An alternative candidate
Use unsigned
math to avoid UB of int
overflow and allow for taking all the - 48
out and then into a constant.
QUESTION
I have a mapping in elasticsearch with a field analyzer having tokenizer:
...ANSWER
Answered 2021-Dec-09 at 11:28It's not related to ES version.
Update max_expansions to more than 50.
max_expansions : Maximum number of variations created.
With 3 grams letter & digits as token_chars, ideal max_expansion will be (26 alphabets + 10 digits) * 3
QUESTION
I'm not experienced so I can't really pinpoint what is the problem. Thanks for the help.
I cloned this repo: https://github.com/flatlogic/react-native-starter.git
And was trying to follow the steps below:
Clone the repogit clone https://github.com/flatlogic/react-native-starter.git
Navigate to clonned folder and Install dependenciescd react-native-starter && yarn install
Install Podscd ios && pod install
When I got to the pod install I'm getting that error.
...ANSWER
Answered 2021-Jul-28 at 18:31I think your pod install
working fine and has done its job. You need to set up iPhone SDK on your mac then try to run cd ../ && react-native run-ios
.
Follow this guide : React Native Environment set up on Mac OS with Xcode and Android Studio
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