range-v3
CMSIS_5
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range-v3 | CMSIS_5 | |
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19 | 10 | |
4,011 | 1,238 | |
- | 4.3% | |
4.4 | 4.7 | |
about 2 months ago | 29 days ago | |
C++ | C | |
GNU General Public License v3.0 or later | Apache License 2.0 |
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For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
range-v3
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Why are strings and IO so complicated?
std::ranges is in c++20, but you can pull in the library it was based on if you use 17 (https://github.com/ericniebler/range-v3)
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Java Streams in c++
What you are describing seems to be std::ranges. If you’re interested in understanding how to implement it, I recommend checking out the original reference implementation, rangev3. Trying to implement your own ranges framework is really good practice for learning how to do efficient, advanced generic programming in C++. I highly recommend it as a hobby learning project. But it’s also really, really hard to do correctly, so please just use the stdlib and/or rangev3 in any real project.
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What are some of the ways to make a super nasty nested loop become clean?
In C++23, there will be std::views::cartesian_product. It is already available in the range-v3 library, the one that the standard is based on.
- 295 pages on Initialization in Modern C++ :)
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Function composition in modern C++
/** * @brief Forwards value equivalent to the std::forward. * * Using cast instead of std::forward to avoid template instantiation. Used by * Eric Niebler in range library. * * @see https://github.com/ericniebler/range-v3 */
- PocketPy: A Lightweight(~5000 LOC) Python Implementation in C++17
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Is there an <algorithm> way to filter + transform multiple containers at once
It uses a custom zip_iterator (which isn't very good, and you should really use the one from boost or from range-v3).
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what annoys you most while using c++?
It contains very little functionality compared to the Eric Niebler’s reference implementation for my liking. Especially views. This will undoubtedly change in the future. But the point is moot, because they are not really supported the is no other option for now other than https://github.com/ericniebler/range-v3.
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C++20 Ranges Algorithms – 7 Non-Modifying Operations
range-v3 is a great library allowing you to bridge the gap: https://github.com/ericniebler/range-v3
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CXXIter: A chainable c++20 LINQ-like iterator library
[range-v3](https://github.com/ericniebler/range-v3) which std::ranges was based on has the `to>()` which as far as I know is expected to get into c++23 :)
CMSIS_5
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Volkswagen will komplette Führung seiner Software-Sparte Cariad feuern
https://github.com/ARM-software/CMSIS_5/blob/develop/CMSIS/RTOS2/Source/os_systick.c bzw. dort https://www.keil.com/pack/doc/CMSIS/RTOS2/html/misraCompliance5.html#MISRA_1.
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How to do STM32 with no abstractions?
You can download the generic CMSIS files from here. The device-specific CMSIS header files can be downloaded from the Keil website: MDK5 Software Packs. Those pack files are ZIP files, btw.
- C++20 Ranges Algorithms – 7 Non-Modifying Operations
- Widely-used open-source embedded C/C++ libraries?
- Need help creating guidelines for my custom UART API. Help!?
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The tools and tech I use to run a one-woman hardware company – Thea Flowers
CMSIS is Arm's own standard ("Cortex Microcontroller Software Interface Standard") for low-level software interfacing.
It's on Github [1], and rather nice. Vendor's middleware can be of varying quality, so just using CMSIS seems refreshingly nice!
[1] https://github.com/ARM-software/CMSIS_5
- Is implementing FFT algorithm in microcontroller easy task for Master thesis?
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Building a stand-alone SWD programmer
Sure, have a look at CMSIS-DAP, FreeDAP, Adafruit DAP, and Blackmagic Probe. SWD will let you access the target's memory space (e.g. RAM, registers, etc). To program the device, you will need to interact with the flash memory controller and this aspect is microcontroller-specific. You can tickle the flash controller registers manually (easier but slower) or you can use specialized RAM-code to make the microcontroller program itself (more difficult but faster).
- Compiling CMSIS without KEIL
What are some alternatives?
Boost.Asio - Asio C++ Library
Numerical-Recipies-in-C - Native implementation of 'Numerical Recipes in C'
cppitertools - Implementation of python itertools and builtin iteration functions for C++17
Labrador - EspoTek Labrador is a USB device that transforms your PC or smartphone into a fully-featured electronics lab. This repo holds all of the source code!
CppCoreGuidelines - The C++ Core Guidelines are a set of tried-and-true guidelines, rules, and best practices about coding in C++
stm32-cube-cmake-vscode - STM32, VSCode and CMake detailed tutorial
HCSR04 - Arduino library for HC-SR04, HC-SRF05, DYP-ME007, BLJ-ME007Y, JSN-SR04T ultrasonic ranging sensor
stm32-cmake - CMake for stm32 developing.
RE2 - RE2 is a fast, safe, thread-friendly alternative to backtracking regular expression engines like those used in PCRE, Perl, and Python. It is a C++ library.
SI - A header only C++ library that provides type safety and user defined literals for physical units
cpplinq - LINQ for C++ (cpplinq) is an extensible C++11 library of higher-order functions for range manipulation. cpplinq draws inspiration from LINQ for C#.
blue_pill_too - Like the STM32 blue pill there is a STM32F030F4P6 based blue board which so far as I know doesnt have a cool name yet.