TBOOX Open Source Project

• tbox v1.6.4 update, new c11 style atomic operation!

  2019-10-11

  tbox

  tbox  atomic  charset

  This version mainly improves stream/stdio read and write, character set encoding and other operations, and reconstructs the entire atomic operation implementation, adding a c11-style atomic api for finer-grained control.

  • Github Repo
  • Online documents

  New features

  • #70: Add tb_stream_init_from_sock_ref() to open a given socket as stream
  • Add stdfile api to read/write stdin, stdout and stderr.
  • #81: Add set/get thread/process cpu affinity
  • Add filelock api
  • Add anonymous and named pipe

  Changes

  • Optimize queue_buffer module
  • Improve stream interfaces
  • Improve charset encoding and add ANSI support
  • Improve atomic and add c11-like atomic apis
  • Improve spinlock
  • Support to redirect process output to pipe
  • Uses virtual memory for coroutine stack
  • Improve openssl/mbedtls for https
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• Uses xmake to build c++20 modules

  2019-09-22

  xmake

  xmake  lua  c++20  modules-ts

  c++ modules have been officially included in the c++20 draft, and msvc and clang have been basically implemented on modules-ts Support, as c++20’s footsteps are getting closer and closer to us, xmake has also begun to support c++modules in advance.

  At present xmake has fully supported the implementation of the modules-ts of msvc/clang. For gcc, since its cxx-modules branch is still under development, it has not officially entered the master. I have read the changelog inside, and the related flags are still in the process. Constantly changing, I feel that it has not stabilized, so I have not supported it yet.

  For more information about xmake’s progress on c++modules: https://github.com/xmake-io/xmake/pull/569

  • Github Source
  • Official Document

  Hello Module

  I will not talk about the introduction of c++modules. This is mainly about how to build a c++modules project under xmake. Let’s look at a simple example:

  target("hello")
      set_kind("binary")
      add_files("src/*.cpp", "src/*.mpp")
  

  The above is a description of the xmake.lua that supports building c++modules files, where hello.mpp is the module file:

  #include <cstdio>
  export module hello;
  using namespace std;
  
  export namespace hello {
      void say(const char* str) {
          printf("%s\n", str);
      }
  }
  

  Main.cpp is the main program that uses the hello module:

  import hello;
  
  int main() {
      hello::say("hello module!");
      return 0;
  }
  

  Next we execute xmake to build this program:

  ruki:hello ruki$ xmake
  [0%]: ccache compiling.release src/hello.mpp
  [50%]: ccache compiling.release src/main.cpp
  [100%]: linking.release hello
  build ok!
  

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• xmake v2.2.8 released, New vs project generator

  2019-08-22

  xmake

  xmake  lua  C/C++  VisualStudio

  This version provides a new vs project generation plugin (thanks to @OpportunityLiu for its contribution), which is quite different from the previous plugin processing mode for generating vs. The vs project is to open all the source files and hand them over to vs to handle the compilation.

  In addition, we rewrote the entire luajit io runtime to better support the unicode character set, especially the support for Chinese characters on Windows.

  Finally, the new version began to try to install the lua bitcode script directly, to reduce the size of the installation package (controlled within 2.4M), improve the efficiency of xmake boot load.

  • Project Source
  • Official Document

  Introduction of new features

  Integrating with the new vsxmake generator

  The original vs build plugin does not support xmake’s rules. Because xmake’s rules use a lot of custom scripts like on_build, they can’t be expanded, so projects like qt, wdk can’t support exporting to vs. compile.

  Therefore, in order to solve this problem, the new version of the vs. build plugin performs the compile operation by directly calling the xmake command under vs, and also supports intellsence and definition jumps, as well as breakpoint debugging.

  The specific use is similar to the old version:

  $ xmake project -k [vsxmake2010|vsxmake2013|vsxmake2015|..] -m "debug;release"
  

  If no version is specified, xmake will automatically detect the current version of vs to generate:

  $ xmake project -k vsxmake -m "debug;release"
  

  

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• Create and upload C/C++ packages to xmake's official repository

  2019-08-09

  xmake

  xmake  lua  C/C++  package  repository

  Xmake integrates built-in remote package dependency management. Users simply add the packages and versions they need to the project, and then automatically download and integrate the corresponding packages into the project, and compile and link.

  For example:

  add_requires("libuv master", "ffmpeg", "zlib 1.20.*")
  add_requires("tbox >1.6.1", {optional = true, debug = true})
  add_requires("boost", {alias = "boost_context", configs = {context = true}})
  target("test")
      set_kind("binary")
      add_files("src/*.c")
      add_packages("libuv", "ffmpeg", "tbox", "boost_context", "zlib")
  

  Xmake’s package repository was designed with semantic version support and cross-platform support for dependencies. As long as the package itself supports the platform, it can be integrated, such as zlib package, used in xmake, iphoneos, android and mingw. All platforms are fully available.

  Users only need to simply cut the build platform:

  xmake f -p iphoneos -a arm64
  xmake
  note: try installing these packages (pass -y to skip confirm)?
  in xmake-repo:
    -> zlib 1.2.11
  please input: y (y/n)
    => download https://downloads.sourceforge.net/project/libpng/zlib/1.2.11/zlib-1.2.11.tar.gz .. ok
    => install zlib 1.2.11 .. ok
  

  You can download the corresponding package in the ‘add_requires` for the iphoneos platform. The ultimate goal of xmake is to create a cross-platform package repository. Users no longer need to find the c/c++ library, and then study the migration of various platforms. You need to simply add the package dependencies, which can be easily used on all platforms.

  Of course, the current xmake official warehouse is still in the early stage of development, there are still few packages, and the supported platforms are not perfect. Therefore, here I briefly introduce how users can make and upload their own c/c++ packages. And how to submit it to our warehouse (you can also build your own private warehouse), I hope that interested partners can help to contribute a small amount of effort to jointly build and build a c/c++ dependency package ecosystem.

  • project source
  • Official Document

  Adding packages to the official repository

  Package structure in repository

  Before making our own package, we need to understand the structure of the next package repository, whether it is the official package repository or the self-built private package repository, the structure is the same:

  xmake-repo
     - packages
       - t/tbox/xmake.lua
       - z/zlib/xmake.lua
  

  Through the above structure, you can see that each package will have a xmake.lua to describe its installation rules, and according to the z/zlib two-level sub-category storage, convenient for quick retrieval.

  Package Description

  The description rules for the package are basically done in its xmake.lua, which is similar to the xmake.lua description in the project project. The difference is that the description field only supports package().

  However, in the project xmake.lua, you can also directly add package() to the built-in package description, and even the package warehouse is saved, sometimes it will be more convenient.

  First, let’s take a look at zlib’s description rules first. This rule can be found at xmake-repo/z/zlib/xmake.lua.

  package("zlib")
  
      set_homepage("http://www.zlib.net")
      set_description("A Massively Spiffy Yet Delicately Unobtrusive Compression Library")
  
      set_urls("http://zlib.net/zlib-$(version).tar.gz",
               "https://downloads.sourceforge.net/project/libpng/zlib/$(version)/zlib-$(version).tar.gz")
  
      add_versions("1.2.10", "8d7e9f698ce48787b6e1c67e6bff79e487303e66077e25cb9784ac8835978017")
      add_versions("1.2.11", "c3e5e9fdd5004dcb542feda5ee4f0ff0744628baf8ed2dd5d66f8ca1197cb1a1")
  
      on_install("windows", function (package)
          io.gsub("win32/Makefile.msc", "%-MD", "-" .. package:config("vs_runtime"))
          os.vrun("nmake -f win32\\Makefile.msc zlib.lib")
          os.cp("zlib.lib", package:installdir("lib"))
          os.cp("*.h", package:installdir("include"))
      end)
  
      on_install("linux", "macosx", function (package)
          import("package.tools.autoconf").install(package, {"--static"})
      end)
   
      on_install("iphoneos", "android@linux,macosx", "mingw@linux,macosx", function (package)
          import("package.tools.autoconf").configure(package, {host = "", "--static"})
          io.gsub("Makefile", "\nAR=.-\n",      "\nAR=" .. (package:build_getenv("ar") or "") .. "\n")
          io.gsub("Makefile", "\nARFLAGS=.-\n", "\nARFLAGS=cr\n")
          io.gsub("Makefile", "\nRANLIB=.-\n",  "\nRANLIB=\n")
          os.vrun("make install -j4")
      end)
  
      on_test(function (package)
          assert(package:has_cfuncs("inflate", {includes = "zlib.h"}))
      end)
  

  This package rule adds installation rules to windows, linux, macosx, iphoneos, mingw and other platforms. Basically, it has achieved full platform coverage, and even some cross-compilation platforms, which is a typical example.

  Of course, some packages rely on source code implementation and are not completely cross-platform, so you only need to set the installation rules for the platforms it supports.

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• xmake v2.2.7 released, Improve to build Cuda project

  2019-06-17

  xmake

  xmake  lua  C/C++  Cuda

  This version mainly makes a lot of improvements to the Cuda project, and adds support for lex/yacc compilation. It also adds custom support for link phases such as on_link, before_link and after_link to the target.

  Here, I would also like to thank @OpportunityLiu for support for xmake. In this version OpportunityLiu contributed a lot of code to Improve Cuda support. In addition, he helped improve xmake’s entire unit testing framework, self-updating programs, command line tab completions, and ci scripts to make xmake’s update iterations more efficient and stable.

  • project source
  • Official Document

  Introduction of new features

  Improve to build Cuda project

  Header file dependency detection and incremental compilation

  Prior to 2.2.6, the compiler support for cuda was not perfect. At least the header file dependency detection was not provided. Therefore, if there is more cuda code, every change will compile all, not like c/c++ code. Do it to detect changes and perform incremental compilation.

  In the new version, xmake has supported it, and now it is very good to handle dependencies on different platforms, which will improve the efficiency of daily compilation and development.

  Add gencodes api

  In the previous version, adding gencodes configuration was very cumbersome and not concise. You can look at the previous configuration:

  target("cuda_console")
      set_kind("binary")
      add_files("src/*.cu")
  
      add_cuflags("-gencode arch=compute_30,code=sm_30", "-gencode arch=compute_35,code=sm_35")
      add_cuflags("-gencode arch=compute_37,code=sm_37", "-gencode arch=compute_50,code=sm_50")
      add_cuflags("-gencode arch=compute_52,code=sm_52", "-gencode arch=compute_60,code=sm_60")
      add_cuflags("-gencode arch=compute_61,code=sm_61", "-gencode arch=compute_70,code=sm_70")
      add_cuflags("-gencode arch=compute_70,code=compute_70")
  
      add_ldflags("-gencode arch=compute_30,code=sm_30", "-gencode arch=compute_35,code=sm_35")
      add_ldflags("-gencode arch=compute_37,code=sm_37", "-gencode arch=compute_50,code=sm_50")
      add_ldflags("-gencode arch=compute_52,code=sm_52", "-gencode arch=compute_60,code=sm_60")
      add_ldflags("-gencode arch=compute_61,code=sm_61", "-gencode arch=compute_70,code=sm_70")
      add_ldflags("-gencode arch=compute_70,code=compute_70")
  

  Therefore, in order to streamline the configuration of xmake.lua, the add_cugencodesapi added to the cuda project is used to simplify the configuration. The improvements are as follows:

  target("cuda_console")
      set_kind("binary")
      add_files("src/*.cu")
  
      -- generate SASS code for each SM architecture
      add_cugencodes("sm_30", "sm_35", "sm_37", "sm_50", "sm_52", "sm_60", "sm_61", "sm_70")
  
      -- generate PTX code from the highest SM architecture to guarantee forward-compatibility
      add_cugencodes("compute_70")
  

  In addition, when configured as add_cugencodes("native"), xmake will automatically detect the gencodes supported by the current device, which will be added automatically, which is more convenient and efficient.

  This, thanks to the probe code provided by [OpportunityLiu] (https://github.com/OpportunityLiu) and the implementation of add_cugencodes.

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